作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2004年
4期
329-333
,共5页
万建林%翟虎渠%万建民%安井秀%吉村醇
萬建林%翟虎渠%萬建民%安井秀%吉村醇
만건림%적호거%만건민%안정수%길촌순
水稻%抗亚铁毒%重组自交(RILs)群体%数量性状位点(QTL s)
水稻%抗亞鐵毒%重組自交(RILs)群體%數量性狀位點(QTL s)
수도%항아철독%중조자교(RILs)군체%수량성상위점(QTL s)
Rice (Oryza sativa L.)%Resistance to ferrous iron toxicity%Recombinant inbred lines (RILs) population%Quantitative trait loci (QTLs)
潜育性水稻田广泛分布于中国、斯里兰卡、印度、印度尼西亚、塞拉里昂、利比亚、尼日利亚、哥伦比亚和菲律宾等国,其中我国南方稻区就有670万公顷低产潜育性水稻田.该类水稻田还原性强,矿质营养失调,尤以Fe2+过量积累,对水稻生长发育产生不良的逆境胁迫作用.培育抗亚铁毒的水稻品种是简便、经济有效地提高稻谷产量的重要途径之一.本文利用Kinmaze/DV85 的81个重组自交家系(RILs)的作图群体,采用水培鉴定方法,在亚铁毒条件下,检测叶片棕色斑点指数(LBI)、株高(PH)的数量性状位点(QTLs).结果表明,控制叶片棕色斑点指数、株高的数量性状位点都位于第3染色体上,各QTL的LOD值为3.79~5.89.检测到与亚铁毒胁迫直接有关的性状叶片棕色斑点指数QTL 2个,分别位于第3染色体的X279-C25和X144-X362间,对应的贡献率分别为17.38%和22.07%, 其中位于第3染色体X279-C25间的叶片棕色斑点指数QTL与水稻功能图谱第3染色体上的控制叶绿素含量的QTL位置一致; 另一个位于X144-X362间的叶片棕色斑点指数QTL与水稻功能图谱第3染色体上的另一个控制叶绿素含量的QTL连锁,相距25.6 cM.表明在亚铁毒胁迫条件下,水稻在其叶片表面出现棕色斑点, 叶片衰老,产生一些叶绿素降解物或衍生物,以提高叶片细胞对亚铁等重金属毒害的耐受力.
潛育性水稻田廣汎分佈于中國、斯裏蘭卡、印度、印度尼西亞、塞拉裏昂、利比亞、尼日利亞、哥倫比亞和菲律賓等國,其中我國南方稻區就有670萬公頃低產潛育性水稻田.該類水稻田還原性彊,礦質營養失調,尤以Fe2+過量積纍,對水稻生長髮育產生不良的逆境脅迫作用.培育抗亞鐵毒的水稻品種是簡便、經濟有效地提高稻穀產量的重要途徑之一.本文利用Kinmaze/DV85 的81箇重組自交傢繫(RILs)的作圖群體,採用水培鑒定方法,在亞鐵毒條件下,檢測葉片棕色斑點指數(LBI)、株高(PH)的數量性狀位點(QTLs).結果錶明,控製葉片棕色斑點指數、株高的數量性狀位點都位于第3染色體上,各QTL的LOD值為3.79~5.89.檢測到與亞鐵毒脅迫直接有關的性狀葉片棕色斑點指數QTL 2箇,分彆位于第3染色體的X279-C25和X144-X362間,對應的貢獻率分彆為17.38%和22.07%, 其中位于第3染色體X279-C25間的葉片棕色斑點指數QTL與水稻功能圖譜第3染色體上的控製葉綠素含量的QTL位置一緻; 另一箇位于X144-X362間的葉片棕色斑點指數QTL與水稻功能圖譜第3染色體上的另一箇控製葉綠素含量的QTL連鎖,相距25.6 cM.錶明在亞鐵毒脅迫條件下,水稻在其葉片錶麵齣現棕色斑點, 葉片衰老,產生一些葉綠素降解物或衍生物,以提高葉片細胞對亞鐵等重金屬毒害的耐受力.
잠육성수도전엄범분포우중국、사리란잡、인도、인도니서아、새랍리앙、리비아、니일리아、가륜비아화비률빈등국,기중아국남방도구취유670만공경저산잠육성수도전.해류수도전환원성강,광질영양실조,우이Fe2+과량적루,대수도생장발육산생불량적역경협박작용.배육항아철독적수도품충시간편、경제유효지제고도곡산량적중요도경지일.본문이용Kinmaze/DV85 적81개중조자교가계(RILs)적작도군체,채용수배감정방법,재아철독조건하,검측협편종색반점지수(LBI)、주고(PH)적수량성상위점(QTLs).결과표명,공제협편종색반점지수、주고적수량성상위점도위우제3염색체상,각QTL적LOD치위3.79~5.89.검측도여아철독협박직접유관적성상협편종색반점지수QTL 2개,분별위우제3염색체적X279-C25화X144-X362간,대응적공헌솔분별위17.38%화22.07%, 기중위우제3염색체X279-C25간적협편종색반점지수QTL여수도공능도보제3염색체상적공제협록소함량적QTL위치일치; 령일개위우X144-X362간적협편종색반점지수QTL여수도공능도보제3염색체상적령일개공제협록소함량적QTL련쇄,상거25.6 cM.표명재아철독협박조건하,수도재기협편표면출현종색반점, 협편쇠로,산생일사협록소강해물혹연생물,이제고협편세포대아철등중금속독해적내수력.
A mapping population of 81 F11 lines (recombinant inbred lines: RILs), derived from a cross between a japonica variety Kinmaze and an indica variety DV85 by the single-seed descent methods, was used to detect quantitative trait loci (QTLs) for leaf bronzing index (LBI) and plant height (PH) under Fe2+ stress condition. Two parents and 81 RILs were phenotyped for the traits by growing them in Fe2+ toxicity nutrient solution. A total of three QTLs were detected on chromosome 3, with score LOD ranging from 3.79 to 5.89. Two QTLs controlling LBI was located at the region of X279-C25 and X144-X362 , and their contributions to total variation were 17.38 % and 22.07%, respectively. One QTL for PH was located at the region of R1468A-R1468B, with contribution rate 23.18%. Comparing with the other mapping results, the QTL for LBI located at the region of X279-C25 on chromosome 3 was identical with the QTL for chlorophyll content on a rice function map. Another QTL for LBI located at the region of X144-X362 linked with QTL for chlorophyll content which located at the region of C136-C944 on a rice function map, the genetic distance between the two QTLs was 25.6 cM. The results indicated that ferrous iron toxicity of rice was characterized by bronzing spots on the lower leaves, which spread over the whole leaves, causing the lower leaves to turn dark gray and producing chlorophyll catabolites or derivatives which reduced cytotoxicity of some heavy metals, such as ferrous iron.
