Papers by Nozaki Hisayoshi
Molecular Biology and Evolution, 2007
BMC Biology, 2007
Background: All previously reported eukaryotic nuclear genome sequences have been incomplete, esp... more Background: All previously reported eukaryotic nuclear genome sequences have been incomplete, especially in highly repeated units and chromosomal ends. Because repetitive DNA is important for many aspects of biology, complete chromosomal structures are fundamental for understanding eukaryotic cells. Our earlier, nearly complete genome sequence of the hot-spring red alga Cyanidioschyzon merolae revealed several unique features, including just three ribosomal DNA copies, very few introns, and a small total number of genes. However, because the exact structures of certain functionally important repeated elements remained ambiguous, that sequence was not complete. Obviously, those ambiguities needed to be resolved before the unique features of the C. merolae genome could be summarized, and the ambiguities could only be resolved by completing the sequence. Therefore, we aimed to complete all previous gaps and sequence all remaining chromosomal ends, and now report the first nuclear-genome sequence for any eukaryote that is 100% complete. Results: Our present complete sequence consists of 16546747 nucleotides covering 100% of the 20 linear chromosomes from telomere to telomere, representing the simple and unique chromosomal structures of the eukaryotic cell. We have unambiguously established that the C.
Volvox capensis was recorded previously only from South Africa. Here we established culture strai... more Volvox capensis was recorded previously only from South Africa. Here we established culture strains of this species from a sample collected in Montana, USA. Morphological details of asexual and sexual spheroids and molecular phylogeny of these strains were studied. The present alga was identified as V. capensis on the basis of morphological characteristics of asexual spheroids and zygotes. However, differences between the Montana and South African materials were recognized in number of sperm packets in a sexual, monoecious spheroid as well as in mode of gametic union between sperm and eggs. Possible polyspermy was observed in eggs of V. capensis by 4′-6-diamidino-2-phenylidole staining. Genetic difference between these two entities was small based on sequences of internal transcribed spacer 2 region of nuclear ribosomal DNA.
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Papers by Nozaki Hisayoshi