作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2010年
4期
565-573
,共9页
佟星%赵波%金文林%曾潮武%刘红霞%吴宝美%濮绍京%陈学珍%潘金豹%万平
佟星%趙波%金文林%曾潮武%劉紅霞%吳寶美%濮紹京%陳學珍%潘金豹%萬平
동성%조파%금문림%증조무%류홍하%오보미%복소경%진학진%반금표%만평
小豆%理化诱变%突变体%突变体鉴定
小豆%理化誘變%突變體%突變體鑒定
소두%이화유변%돌변체%돌변체감정
Azuki bean (Vigna angularisi)%EMS and irradiation mutagenesis%Mutants%Mutant identification
选用小豆品种京农6号种子,分别采用甲基磺酸乙酯(EMS)(0.5%、0.9%和1.4%处理12 h和24 h)、电子束(100、300、600 Gy)、~(60)Co-γ(400 Gy)诱变处理,将处理后的种子种于大田,鉴定后代植株性状的变异.观察表明,EMS诱变的变异类型最丰富、~(60)Co-γ射线次之、电子束产生的变异类型较单一.EMS处理小豆以浓度0.5%和0.9%处理24h为宜:0.5%EMS处理的粒色和荚色变异突出,有鲜红、黄白、绿白粒色和黑荚、褐荚、黑褐荚变异;0.9%处理的叶形变异突出,有鸡爪叶、剑叶、肾形叶、小密叶等突变类型;电子束诱变后,M_2变异率分别为4.09%、3.64%和2.22%.400 Gy ~(60)Co-γ射线处理种子,后代变异率为7.23%.通过两年的鉴定筛选,获得937个EMS诱变M_3代株系,934个~(60)Co-γ射线和电子束诱变M_2代株系,已得到株高、叶形、叶色、粒形、粒色、荚色、无分枝、多分枝、叶簇生、分枝簇生、光叶、蔓生、有限结荚习性、株型松散、育性、成熟特性等突变体材料1490份.本研究为小豆基因遗传分析、基因定位与克隆及其进一步的基因功能分析奠定了基础,为小豆育种提供了重要的材料.
選用小豆品種京農6號種子,分彆採用甲基磺痠乙酯(EMS)(0.5%、0.9%和1.4%處理12 h和24 h)、電子束(100、300、600 Gy)、~(60)Co-γ(400 Gy)誘變處理,將處理後的種子種于大田,鑒定後代植株性狀的變異.觀察錶明,EMS誘變的變異類型最豐富、~(60)Co-γ射線次之、電子束產生的變異類型較單一.EMS處理小豆以濃度0.5%和0.9%處理24h為宜:0.5%EMS處理的粒色和莢色變異突齣,有鮮紅、黃白、綠白粒色和黑莢、褐莢、黑褐莢變異;0.9%處理的葉形變異突齣,有鷄爪葉、劍葉、腎形葉、小密葉等突變類型;電子束誘變後,M_2變異率分彆為4.09%、3.64%和2.22%.400 Gy ~(60)Co-γ射線處理種子,後代變異率為7.23%.通過兩年的鑒定篩選,穫得937箇EMS誘變M_3代株繫,934箇~(60)Co-γ射線和電子束誘變M_2代株繫,已得到株高、葉形、葉色、粒形、粒色、莢色、無分枝、多分枝、葉簇生、分枝簇生、光葉、蔓生、有限結莢習性、株型鬆散、育性、成熟特性等突變體材料1490份.本研究為小豆基因遺傳分析、基因定位與剋隆及其進一步的基因功能分析奠定瞭基礎,為小豆育種提供瞭重要的材料.
선용소두품충경농6호충자,분별채용갑기광산을지(EMS)(0.5%、0.9%화1.4%처리12 h화24 h)、전자속(100、300、600 Gy)、~(60)Co-γ(400 Gy)유변처리,장처리후적충자충우대전,감정후대식주성상적변이.관찰표명,EMS유변적변이류형최봉부、~(60)Co-γ사선차지、전자속산생적변이류형교단일.EMS처리소두이농도0.5%화0.9%처리24h위의:0.5%EMS처리적립색화협색변이돌출,유선홍、황백、록백립색화흑협、갈협、흑갈협변이;0.9%처리적협형변이돌출,유계조협、검협、신형협、소밀협등돌변류형;전자속유변후,M_2변이솔분별위4.09%、3.64%화2.22%.400 Gy ~(60)Co-γ사선처리충자,후대변이솔위7.23%.통과량년적감정사선,획득937개EMS유변M_3대주계,934개~(60)Co-γ사선화전자속유변M_2대주계,이득도주고、협형、협색、립형、립색、협색、무분지、다분지、협족생、분지족생、광협、만생、유한결협습성、주형송산、육성、성숙특성등돌변체재료1490빈.본연구위소두기인유전분석、기인정위여극륭급기진일보적기인공능분석전정료기출,위소두육충제공료중요적재료.
Mutational approaches have been widely exploited in breeding, genetics and gene function researches. We firstly de-veloped a large collection of mutants from azuki bean (Vigna angularisi) cultivar Jingnong 6 treated by 0.5%, 0.9%, and 1.4% EMS for 12 h and 24 h, 400 Gy ~(60)Co-γ ray and 100 Gy, 300 Gy, and 600 Gy electron beam. The results indicated that the maxi-mum mutations were induced by 0.5% or 0.9% EMS for 24 h. More seed color mutants including cream-colored and light red seeds, pod color mutants such as brown, dark brown and black pods were produced by 0.5% EMS. Needle leaf, sword, kid-ney-shaped and small heart-shaped leaf mutants were obtained by 0.9% EMS treatment. The percentage of mutants with 100, 300, and 600 Gy electron beam treatment were 4.09%, 3.64%, and 2.22% respectively. The percentage of mutants treated by 400 Gy ~(60)Co-γ ray was 7.23%. Nine hundred thirty-seven EMS-induced M_3 lines and nine hundred thirty-four M_2 lines radiated by ~(60)Co-γ ray and electron beam were generated. A total of 1490 mutants were collected. Mutations included in plant height, plant architec-ture, leaf shape and color, leaf size, seed shape and color, seed size, pod color, branching type and number, bushy leaf or branch, sprawl, definite growth, sterile, early and late mature, flowering time. The mutant populations are very useful to genetic analysis of gene, gene mapping and cloning, and further the research on functional genomics. These mutants will be useful to serve the azuki bean improvement.
