Search result for 'flowering '.
Viewing records 1101 to 1150 of 1366 hits.
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N98317
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Name: DC18 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
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Material type: seed
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98318
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Name: DC19 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98319
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Name: DC20 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98320
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Name: DC21 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
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Material type: seed
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98321
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Name: DC22 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
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Material type: seed
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98322
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Name: DC23 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
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Material type: seed
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98323
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Name: DC24 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98324
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Name: DC25 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98325
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Name: DC26 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
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Material type: seed
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98326
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Name: DC27 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98327
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Name: DC28 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98328
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Name: DC29 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
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Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98329
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Name: DC30 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98330
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Name: DC31 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
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Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98331
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Name: DC32 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98332
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Name: DC33 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
|
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98333
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Name: DC34 |
Price:
£11.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98334
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Name: DC36 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
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Stock type: individual line
|
Material type: seed
|
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Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98335
|
Name: DC37 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
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Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98336
|
Name: DC38 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98337
|
Name: DC39 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98338
|
Name: DC40 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98339
|
Name: DC41 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98340
|
Name: DC42 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98341
|
Name: DC43 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98342
|
Name: DC44 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
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Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98343
|
Name: DC45 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
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Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98344
|
Name: DC46 |
Price:
£11.00
|
Donor
- Wageningen University Maarten Koornneef
|
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Stock type: individual line
|
Material type: seed
|
|
Description Arabidopsis multiparent recombinant inbred line (AMPRIL). Line selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data). These lines are also available as a set, N98345. See collection page for further details.
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N98345
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Name: AMPRIL Set |
Price:
£1000.00
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Donor
- Wageningen University Maarten Koornneef
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Stock type: set
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Material type: seed
|
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Description Set of Arabidopsis multiparent recombinant inbred lines (AMPRIL). Lines were selfed for three generations, the F4 generation was genotyped with SNP and microsatellite markers. Data for flowering time and leaf morphology traits were determined in the F5 generation. Distribution seeds are the progeny of a F5 single-seed plant, where residual heterozygosity may have been present in the parent line (see genetic marker data).
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N783000
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Name: Complete set of 222 Ler x Fei-0 lines + 2 parental lines. |
Price:
£330.00
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
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Stock type: set
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Material type: seed
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Description Set includes 222 F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male) and the 2 parental lines. Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
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Stock type: individual line
|
Material type: seed
|
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
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Stock type: individual line
|
Material type: seed
|
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
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Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
|
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
|
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
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Stock type: individual line
|
Material type: seed
|
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
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Stock type: individual line
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Material type: seed
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
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Stock type: individual line
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Material type: seed
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
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|
Stock type: individual line
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Material type: seed
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Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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|
Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
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|
Stock type: individual line
|
Material type: seed
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|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
|
|
Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
|
|
Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
|
|
Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
|
|
Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
|
|
Donor
- Centro Nacional de Biotecnologia (CNB) - CSIC Carlos Alonso-Blanco
|
|
Stock type: individual line
|
Material type: seed
|
|
Description Set of F10 recombinant inbred lines derived from the cross Ler (female) and Fei-0 (male). Vegetative growth and flowering initiation are two crucial developmental processes in the life cycle of annual plants that are closely associated. The timing of both processes affects several presumed adaptive traits, such as flowering time (FT), total leaf number (TLN), or the rate of leaf production (RLP). However, the interactions among these complex processes and traits, and their mechanistic bases, remain largely unknown. To determine the genetic relationships between them, the natural genetic variation between A. thaliana accessions Fei-0 and Ler has been studied using a new population of 222 LerxFei-0 recombinant inbred lines
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