SORGHUM-GENSTOCKS

Descriptors
Category: GENSTOCK
  1. Mutant classification (MUTANT) Classification of mutants
Category: GROWTH
  1. Plant height (PLANTHGT) Plant height in centimeters
Category: MORPHOLOGY
  1. INFLORESCENCE EXSERTION (EXSERTION) Inflorescence exsertion measured in centimeters
Category: PHENOLOGY
  1. Days to flower (FLOWERING) Days to flower
Category: PRODUCTION
  1. SEED WEIGHT (SEEDWEIGHT) Weight of 100 seeds recorded in grams
Category: SUBSET
  1. ARS_BTx623_NAM_ESCT_22FS (ARS_BTx623_NAM_ESCT_22FS ) Genetic Architecture of Chilling Tolerance in Sorghum Dissected with a Nested Association Mapping Population
  2. ARS_BTx623_NAM_ESCT_23PR (ARS_BTx623_NAM_ESCT_23PR) Genetic Architecture of Chilling Tolerance in Sorghum Dissected with a Nested Association Mapping Population
  3. ARS EMS MUTANTS (ARS_EMS_MT) A flag to indicate the accession is part of the ARS EMS Mutants
  4. COLD TOLERANT POPULATION (COLDTOL) A flag to indicate the accession is part of the Sorghum Cold Tolerant Population
  5. NAM_RTX430 x Ajabsido (NAM_RTX430 x Ajabsido) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  6. NAM_RTX430 x Macia (NAM_RTX430 x Macia) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  7. NAM_RTX430 x P898012 (NAM_RTX430 x P898012) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  8. NAM_RTX430 x SC1103 (NAM_RTX430 x SC1103) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  9. NAM_RTX430 x SC1345 (NAM_RTX430 x SC1345) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  10. NAM_RTX430 x SC265 (NAM_RTX430 x SC265) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  11. NAM_RTX430 x SC283 (NAM_RTX430 x SC283) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  12. NAM_RTX430 x SC35 (NAM_RTX430 x SC35) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  13. NAM_RTX430 x SC971 (NAM_RTX430 x SC971) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  14. NAM_RTX430 x Segaolane (NAM_RTX430 x Segaolane) The Kansas State University has released a nested association mapping population (NAM) with a total of 2133 recombinant inbred lines (Rlls) developed from ten bi-parental sub-populations These 2133 Rlls were derived from 10 diversified founder lines each crossed separately to RTx430 to develop ten bi-parental mapping sub-populations and released by the Kansas State University KS, in July 2019. Extensive field studies on the founder lines having wide genetic and geographical diversity simply proved the unique and distinguishable nature of the developed KS-RTx430NAM population for the traits related to biotic and abiotic stresses. The population is currently in F9 and reached the maximum homozygosity with genetic purity and uniformity within each RIL. All RI Ls have been genotyped through genotype-by-sequencing (GBS) using an lllumina HiSeq 2500 with a high-output flowcell and 1 DO-cycle single-end sequencing. KS-RTx430NAM will serve as a new genetic resource and for research and development purpose for the exploitation of wide genetic diversity of many complex yield traits.
  15. RIL BTX623 X PI567946 (HKZ) (RIL BTX623 X PI567946 (HKZ)) Recombinant Inbred Lines (RIL) Mapping Population BTx623 x PI567946 (HKZ)
  16. RIL BTX623 X PI568016 (NSZ) (RIL BTX623 X PI568016 (NSZ)) Recombinant Inbred Lines (RIL) Mapping Population BTx623 x PI568016 (NSZ)
  17. SCHERTZ MUTANTS (SCHERTZMT) A flag to indicate the accession is part of the Schertz Mutants
  18. RIL BTX623 X IS3620C (SORGRIL) Recombinant Inbred Lines (RIL) Mapping Population BTx623 x IS3620C