| 0 | PI 636346 | SA 3499 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B01 is an alien chromosome substitution line (2n=52) in which the chromosome 01 pair of G. hirsutum has been replaced by the chromosomal material from G. barbadense doubled-haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-01, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B01 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665775 | PI 636346 |
| 1 | PI 636347 | SA 3500 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B02 is an alien chromosome substitution line (2n=52) in which the chromosome 02 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-02, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B02 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665776 | PI 636347 |
| 2 | PI 636349 | SA 3502 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B06 is an alien chromosome substitution line (2n=52) in which the chromosome 06 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome subsitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-06, coupled with recovery of the coresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B06 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665778 | PI 636349 |
| 3 | PI 636350 | SA 3503 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B07 is an alien chromosome substitution line (2n=52) in which the chromosome 07 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-07, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B07 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665779 | PI 636350 |
| 4 | PI 636351 | SA 3504 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B16 is an alien chromosome substitution line (2n=52) in which the chromosome 16 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-16, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B16 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665780 | PI 636351 |
| 5 | PI 636352 | SA 3505 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B17 is an alien chromosome substitution line (2n=52) in which the chromosome 17 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-17, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B17 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665781 | PI 636352 |
| 6 | PI 636353 | SA 3506 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B18 is an alien chromosome substitution line (2n=52) in which the chromosome 18 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrect backcrossing to G. hirsutum plants monosomic for chromosome-18, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B18 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665782 | PI 636353 |
| 7 | PI 636354 | SA 3507 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B25 is an alien chromosome substitution line (2n=52) in which the chromosome 25 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-25, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B25 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1. | 1665783 | PI 636354 |
| 8 | PI 636355 | SA 3508 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B05sh is an alien chromosome substitution line (2n=52) in which chromosome arm 5sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B05sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via rrecurrent backcrossing to G. hirsutum plants monotelodisomic for Te05Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all of the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded in the absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665784 | PI 636355 |
| 9 | PI 636356 | SA 3509 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B11sh is an alien chromosome substitution line (2n=52) in which chromosome arm 11sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B11sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te11Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded in the absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665785 | PI 636356 |
| 10 | PI 636357 | SA 3510 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B12sh is an alien chromosome substitution line (2n=52) in which chromosome arm 12sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B12sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te12Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded in the absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665786 | PI 636357 |
| 11 | PI 636358 | SA 3511 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B14sh is an alien chromosome substitution line (2n=52) in which chromosome arm 14sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B14sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te14Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665787 | PI 636358 |
| 12 | PI 636359 | SA 3512 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B15sh is an alien chromosome substitution line (2n=52) in which chromosome arm 15sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B15sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te15Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665788 | PI 636359 |
| 13 | PI 636360 | SA 3513 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B22Lo is an alien chromosome substitution line (2n=52) in which chromosome arm 22Lo of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B22Lo is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te22sh, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665789 | PI 636360 |
| 14 | PI 636361 | SA 3514 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B22sh is an alien chromosome substitution line (2n=52) in which chromosome arm 22sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B22sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te22Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665790 | PI 636361 |
| 15 | PI 636362 | SA 3515 | Gossypium hirsutum L. | Texas, United States | COT | | | 2004 | DEVELOPED | 2004 | | | | | Breeding material | CS-B26Lo is an alien chromosome substitution line (2n=52) in which chromosome arm 26Lo of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B26Lo is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te26sh, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination. | 1665791 | PI 636362 |