NASC

N2111114

Name: Hi-0xTsu-0.051

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111115

Name: Hi-0xTsu-0.052

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111116

Name: Hi-0xTsu-0.053

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111117

Name: Hi-0xTsu-0.054

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111118

Name: Hi-0xTsu-0.055

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111119

Name: Hi-0xTsu-0.056

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111120

Name: Hi-0xTsu-0.057

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111121

Name: Hi-0xTsu-0.058

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111122

Name: Hi-0xTsu-0.059

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111123

Name: Hi-0xTsu-0.060

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111124

Name: Hi-0xTsu-0.061

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111125

Name: Hi-0xTsu-0.062

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111126

Name: Hi-0xTsu-0.063

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111127

Name: Hi-0xTsu-0.064

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111128

Name: Hi-0xTsu-0.065

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111129

Name: Hi-0xTsu-0.066

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111130

Name: Hi-0xTsu-0.067

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111131

Name: Hi-0xTsu-0.068

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111132

Name: Hi-0xTsu-0.069

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111133

Name: Hi-0xTsu-0.070

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111134

Name: Hi-0xTsu-0.071

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111135

Name: Hi-0xTsu-0.072

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111136

Name: Hi-0xTsu-0.073

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111137

Name: Hi-0xTsu-0.074

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111138

Name: Hi-0xTsu-0.075

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111139

Name: Hi-0xTsu-0.076

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111140

Name: Hi-0xTsu-0.077

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111141

Name: Hi-0xTsu-0.078

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111142

Name: Hi-0xTsu-0.079

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111143

Name: Hi-0xTsu-0.080

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111144

Name: Hi-0xTsu-0.081

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111145

Name: Hi-0xTsu-0.082

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111146

Name: Hi-0xTsu-0.083

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111147

Name: Hi-0xTsu-0.084

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111148

Name: Hi-0xTsu-0.085

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111149

Name: Hi-0xTsu-0.086

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111150

Name: Hi-0xTsu-0.087

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111151

Name: Hi-0xTsu-0.088

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111152

Name: Hi-0xTsu-0.089

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111153

Name: Hi-0xTsu-0.090

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111154

Name: Hi-0xTsu-0.091

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111155

Name: Hi-0xTsu-0.092

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111156

Name: Hi-0xTsu-0.093

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111157

Name: Hi-0xTsu-0.094

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111158

Name: Hi-0xTsu-0.095

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111159

Name: Hi-0xTsu-0.096

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111160

Name: Hi-0xTsu-0.097

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111161

Name: Hi-0xTsu-0.098

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111162

Name: Hi-0xTsu-0.099

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .

N2111163

Name: Hi-0xTsu-0.100

Price: £11.00

Donor University of Cambridge Jean Dillon University of Cambridge Ottoline Leyser University of Cambridge Rebecca Butler University of Cambridge Hugo Tavares University of Cambridge Maike de Jong University of Cambridge Audrey McInnerney University of Cambridge Urszula Kania

Stock type: individual line

Material type: seed

Description F8 recombinant inbred line (RIL) population was generated from accessions Hi-0 and Tsu-0, which have opposite phenotypes for shoot branching plasticity in response to nitrate. Higher plasticity line Tsu-0, grown under nitrate sufficient conditions, produces more branching than those grown under nitrate deficient conditions. Lower plasticity line Hi-0 produces similar numbers of branches, regardless of nitrate supply (de Jong et al., 2019). Lines Hi-0 and Tsu-0 were selected from a set of 19 natural accessions, founders of MAGIC lines (Kover et al., 2009). The initial F1 was generated by reciprocal crossing, using each accession as both a male and a female parent. F2s were generated by selfing individuals from each reciprocal F1 cross. 200 individuals from each cross direction (400 total) were picked for further rounds of selfing. In each round, a single seed was grown to generate the next generation. We repeated this process up to generation F8 (i.e. 6 rounds of single-seed-descent selfing after the initial F2 segregating population). The direction of the cross is indicated by the RIL name, where the female parent is indicated first (for example, Hi-0xTsu-0.030 is individual 30 from a cross using Hi-0 as a female parent). For most mapping purposes, researchers can ignore the cross direction; but this information may be of interest to study epistatic interactions between mitochondrial and nuclear genomes or segregation distortion.This line is part of the set N2111466 .