| 0 | GSOR 101 | Triplo 1 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925377 | GSOR 101 |
| 1 | GSOR 102 | Triplo 3 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925378 | GSOR 102 |
| 2 | GSOR 103 | Triplo 4 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925379 | GSOR 103 |
| 3 | GSOR 104 | Triplo 5 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925380 | GSOR 104 |
| 4 | GSOR 105 | Triplo 7 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925381 | GSOR 105 |
| 5 | GSOR 106 | Triplo 8 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925382 | GSOR 106 |
| 6 | GSOR 107 | Triplo 9 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925383 | GSOR 107 |
| 7 | GSOR 108 | Triplo 10 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925384 | GSOR 108 |
| 8 | GSOR 109 | Triplo 11 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925385 | GSOR 109 |
| 9 | GSOR 110 | Triplo 12 | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925386 | GSOR 110 |
| 10 | GSOR 111 | 2n + 5S.5S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925387 | GSOR 111 |
| 11 | GSOR 112 | 2n + 7S.7S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925388 | GSOR 112 |
| 12 | GSOR 113 | 2n + 8S.8S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925389 | GSOR 113 |
| 13 | GSOR 114 | 2n + 8L.8L | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925390 | GSOR 114 |
| 14 | GSOR 115 | 2n + 11S.11S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925391 | GSOR 115 |
| 15 | GSOR 116 | 2n + 11L.11L | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925392 | GSOR 116 |
| 16 | GSOR 117 | 2n + 12S.12S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925393 | GSOR 117 |
| 17 | GSOR 118 | 2n + 2L | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925394 | GSOR 118 |
| 18 | GSOR 119 | 2n + 3L | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925395 | GSOR 119 |
| 19 | GSOR 120 | 2n + 7S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925396 | GSOR 120 |
| 20 | GSOR 121 | 2n + 8S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925397 | GSOR 121 |
| 21 | GSOR 122 | 2n + 9S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925398 | GSOR 122 |
| 22 | GSOR 123 | 2n + 10S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925399 | GSOR 123 |
| 23 | GSOR 124 | 2n + 12S | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925400 | GSOR 124 |
| 24 | GSOR 125 | IR36 (disomic parent) | Oryza sativa L. | Luzon, Philippines | GSOR | | | 2014 | DEVELOPED | 2012 | | | | | Genetic material | Twenty-four of the 'IR36' rice (Oryza sativa L.) trisomic seed stocks including ten primary trisomic lines, Triplo 1, 3, 4, 5, 7, 8, 9, 10, 11 and 12 (GSOR 101-110); seven secondary trisomic lines identified as 2n + 5S.5S, 7S.7S, 8S.8S, 8L.8L, 11S.11S, 11L.11L and 12S.12S (GSOR 111-117), seven telotrisomic lines identified as 2n + 2L, 3L, 7S, 8S, 9S, 10S and 12S (GSOR 118-124) and the disomic IR36 (GSOR 125) are being made available through the USDA ARS Genetic Stocks-Oryza (GSOR). These lines were imported from the International Rice Research Institute in the Philippines and the trisomic plants were reselected as mature plants in a quarantine greenhouse and seed from the selected plants was grown in the field for several years at Stuttgart Arkansas. Segregating trisomic plants were identified based on morphology and selections were confirmed by meiotic analysis. Data was collected on plant morphological (number of days to heading, plant height, panicle length, flag leaf length and width, number of seeds per panicle) and seed size traits from segregating trisomic plants. Rice trisomic plants have been used to locate genes on chromosomes, associate linkage groups or DNA clones to chromosome(s), and to develop chromosome specific DNA markers. | 1925401 | GSOR 125 |