Rowan Beth A, Oldenburg Delene J, Bendich Arnold J
Department of Biology, University of Washington, Seatlle, WA 98195-5325, USA.
Curr Genet. 2004 Sep;46(3):176-81. doi: 10.1007/s00294-004-0515-7. Epub 2004 Jul 13.
Although it might be expected that chloroplast DNA (cpDNA) would be stably maintained in mature leaves, we report the surprising observation that cpDNA levels decline during plastid development in Arabidopsis thaliana (Col.) until most of the leaves contain little or no DNA long before the onset of senescence. We measured the cpDNA content in developing cotyledons, rosette leaves, and cauline leaves. The amount of cpDNA per chloroplast decreases as the chloroplasts develop, reaching undetectable levels in mature leaves. In young cauline leaves, most individual molecules of cpDNA are found in complex, branched forms. In expanded cauline leaves, cpDNA is present in smaller branched forms only at the base of the leaf and is virtually absent in the distal part of the leaf. We conclude that photosynthetic activity may persist long after the demise of the cpDNA.
尽管人们可能预期叶绿体DNA(cpDNA)会在成熟叶片中稳定维持,但我们报告了一个惊人的观察结果:在拟南芥(Col.)的质体发育过程中,cpDNA水平会下降,直到大多数叶片在衰老开始之前很久就几乎不含有或不含有DNA。我们测量了发育中的子叶、莲座叶和茎生叶中的cpDNA含量。随着叶绿体的发育,每个叶绿体中的cpDNA量会减少,在成熟叶片中达到无法检测的水平。在幼嫩的茎生叶中,大多数cpDNA单个分子以复杂的分支形式存在。在展开的茎生叶中,cpDNA仅以较小的分支形式存在于叶基部,而在叶的远端几乎不存在。我们得出结论,光合活性可能在cpDNA消失后仍持续很长时间。