高等植物自交不亲和性在遗传上受S-位点(S-Locus)控制,其识别蛋白是S-基因编码的S-位点特异性蛋白(SLSG)(S-蛋白),是决定植物自交不亲和的关键性功能蛋白质。
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受一系列复等位基因的单一基因座(S-locus)控制,S基因座 在雌雄生殖组织中表达一个或多个S基因, S基因编码不同 的蛋白质 配子体不亲和(GSI):雌蕊S-核酸酶有关,为花柱基...
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S-locus receptor kinase 受体蛋白激酶
s locus s位点
s locus gene s位点基因
S-locus cysteine-rich 位点富含半胱氨酸 ; 富含半胱氨酸
s locus specific protein s位点特异蛋白
S-locus glycoproteins 位点糖蛋白
S-locus cystein-rich protein 半胱氨酸蛋白 ; 氨酸蛋白
S-locus cysteine-rich protein 富含半胱氨酸的蛋白 ; 富含半胱氨酸基因
S-locus glycoprotein 位点糖蛋白
Studies of effects of S genes on self-incompatibility in phanerogam have been the focus since the first S gene (S-locus glycoprotein, SLG) was identified.
当第一个S位点基因发现之后,对于它在植物中自交不亲和信号转导途径中的研究就成为热点。
Self_incompatibility in Brassica is controlled by a single multiallelic locus (designated as S locus) that is responsible for pollen recognition on the stigma surface.
芸苔属植物自交不亲和性受单一位点的复等位基因控制,此位点命名为S位点。
The researchers' experiments show that the CRISPR locus limits the ability of the S. epidermidis strain to act as a plasmid recipient, essentially denying entry to the genes carrying the resistance.
研究者的实验表明,CRISPR位点限制了s。epidermidis菌株作为一个质粒接受体的能力,从本质上阻断了能引起抗性基因的进入。
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