分子植物育种
分子植物育種
분자식물육충
MOLECULAR PLANT BREEDING
2013年
2期
163-167
,共5页
厉永鹏%姜博%李宇新%张杰%李集临%张延明*
厲永鵬%薑博%李宇新%張傑%李集臨%張延明*
려영붕%강박%리우신%장걸%리집림%장연명*
小麦%偃麦草%黑麦%多属杂交%分子标记
小麥%偃麥草%黑麥%多屬雜交%分子標記
소맥%언맥초%흑맥%다속잡교%분자표기
Wheat%Thinopyrum%Secale%Mostly hybrid%Molecular markers
对八倍体小偃麦“麦草8号”(AABBDDEE,2N=56)和六倍体小黑麦“哈师209”(AABBRR,2N=42)杂交的F3代90个植株进行分子标记和细胞遗传学鉴定.3对R、E和St染色体组特异分子标记鉴定结果表明,R组特异引物PSC119.1扩增出750 bp片段,E组特异引物P3、P4扩增出982 bp片段,St组特异引物St542扩增出750 bp和450 bp片段,F3植株均具有R、E和St染色体组成分;形态学和细胞学检测结果表明, F3植株高大繁茂,多花多粒,籽粒饱满,抗病;花粉母细胞的单价体数逐渐减少(2~9),二价体数逐渐增加(17~26),根尖细胞染色体数变动在47~56,可从中选育具有E组抗病、多花,R组大穗、多小穗和St组抗寒等综合性状好的材料,可作为小麦遗传改良的新种质.这些结果为创制小麦-偃麦草-黑麦三属杂交新种质研究和品种选育提供了信息和材料基础.
對八倍體小偃麥“麥草8號”(AABBDDEE,2N=56)和六倍體小黑麥“哈師209”(AABBRR,2N=42)雜交的F3代90箇植株進行分子標記和細胞遺傳學鑒定.3對R、E和St染色體組特異分子標記鑒定結果錶明,R組特異引物PSC119.1擴增齣750 bp片段,E組特異引物P3、P4擴增齣982 bp片段,St組特異引物St542擴增齣750 bp和450 bp片段,F3植株均具有R、E和St染色體組成分;形態學和細胞學檢測結果錶明, F3植株高大繁茂,多花多粒,籽粒飽滿,抗病;花粉母細胞的單價體數逐漸減少(2~9),二價體數逐漸增加(17~26),根尖細胞染色體數變動在47~56,可從中選育具有E組抗病、多花,R組大穗、多小穗和St組抗寒等綜閤性狀好的材料,可作為小麥遺傳改良的新種質.這些結果為創製小麥-偃麥草-黑麥三屬雜交新種質研究和品種選育提供瞭信息和材料基礎.
대팔배체소언맥“맥초8호”(AABBDDEE,2N=56)화륙배체소흑맥“합사209”(AABBRR,2N=42)잡교적F3대90개식주진행분자표기화세포유전학감정.3대R、E화St염색체조특이분자표기감정결과표명,R조특이인물PSC119.1확증출750 bp편단,E조특이인물P3、P4확증출982 bp편단,St조특이인물St542확증출750 bp화450 bp편단,F3식주균구유R、E화St염색체조성분;형태학화세포학검측결과표명, F3식주고대번무,다화다립,자립포만,항병;화분모세포적단개체수축점감소(2~9),이개체수축점증가(17~26),근첨세포염색체수변동재47~56,가종중선육구유E조항병、다화,R조대수、다소수화St조항한등종합성상호적재료,가작위소맥유전개량적신충질.저사결과위창제소맥-언맥초-흑맥삼속잡교신충질연구화품충선육제공료신식화재료기출.
@@@@The molecular marker and cytogenetics identification for 90 plants of F3 from Octoploid Trititrigia“Wheat grass 8”(AABBDDEE, 2N=56) × Hexaploid Triticale“Hashi209”(AABBRR, 2N=42). The result of three pairs of specific molecular marker on R, E and St genome showed that R group specific primers PSC119.1 amplified 750 bp fragment, E group specific primers P3, P4 amplified 982 bp fragment, St group specific primers St542 amplified 750 bp and 450 bp fragment, which indicated F3 plants contained the ingredient of R, E, St genome. The results of detection on morphology and cytology showed that F3 plants were high and luxuriant, flowery and multi-grain, full seed and resistance to disease. The univalent was gradually tapered (2~9) in pollen mother cell, the bivalent was increased (17~26), and the chromosome number of root tip cells was among 47~56. The materials can be chosen for the new germplasms on wheat genetic improvement, which have the character on resistance to disease and flowery from E genome, big spike, more spikelet from R genome and cold resistance from St genome. The research provides therotical and material bases for creating wheat-Thinopyrum-rye three genera hybrid and variety breeding.
