Newton K J, Mariano J M, Gibson C M, Kuzmin E, Gabay-Laughnan S
Division of Biological Sciences, University of Missouri, Columbia 65211, USA.
Dev Genet. 1996;19(3):277-86. doi: 10.1002/(SICI)1520-6408(1996)19:3<277::AID-DVG11>3.0.CO;2-X.
Cytoplasmic male sterility (CMS) and the abnormal-growth, nochromosomal stripe (NCS) phenotypes are cytoplasmically determined traits in plants. Mitochondrial DNA rearrangements involving short repeats appear to be responsible for the production of CMS reversions to fertility and NCS mutations. NCS4, a new mutant of maize CMS-S, exhibits both abnormal growth and male fertility. This mutant is unique because both mutations occurred within the same plant. Free S1 and S2 episomes normally found in CMS-S mitochondria have been lost from NCS4 plants. An S2 sequence has recombined aberrantly with a ribosomal protein coding region, rps3/rpl16. One end of the S2 sequence and the 5' end of the rps3/rpl16 transcription unit are absent from the NCS4 recombinant genome. Loss of mitochondrial ribosomal protein function is lethal; therefore, NCS4 plants are heteroplasmic for the rps3 deletion. Loss of S sequences from CMS-S mitochondria is not lethal and plants regain pollen function. Thus, although NCS4 plants have very abnormal plant phenotypes, they are male-fertile.
细胞质雄性不育(CMS)以及异常生长、无染色体条纹(NCS)表型是植物中由细胞质决定的性状。涉及短重复序列的线粒体DNA重排似乎是CMS恢复育性和NCS突变产生的原因。NCS4是玉米CMS-S的一个新突变体,表现出异常生长和雄性育性。该突变体很独特,因为两种突变发生在同一植株内。通常在CMS-S线粒体中发现的游离S1和S2附加体已从NCS4植株中丢失。一个S2序列与核糖体蛋白编码区rps3/rpl16发生了异常重组。NCS4重组基因组中缺失了S2序列的一端和rps3/rpl16转录单元的5'端。线粒体核糖体蛋白功能的丧失是致命的;因此,NCS4植株对于rps3缺失是异质的。CMS-S线粒体中S序列的缺失并不致命,植株恢复了花粉功能。因此,尽管NCS4植株具有非常异常的植株表型,但它们是雄性可育的。
