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鼠白血病病毒特异性mRNA的大小分析及其关系:亚基因组mRNA合成与加工过程中序列转位的证据。

Size analysis and relationship of murine leukemia virus-specific mRNA's: evidence for transposition of sequences during synthesis and processing of subgenomic mRNA.

作者信息

Fan H, Verma I M

出版信息

J Virol. 1978 May;26(2):468-78. doi: 10.1128/JVI.26.2.468-478.1978.

DOI:10.1128/JVI.26.2.468-478.1978
PMID:660721
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC354084/
Abstract

Virus-specific mRNA from purified polyribosomes of mouse cells infected with Moloney murine leukemia virus (M-MuLV) was analyzed by electrophoresis in agarose gels, followed by hybridization of gel slices with M-MuLV-specific complementary DNA (cDNA). The size resolution of the gels was better than that of sucrose gradients used in previous analyses, and two virus-specific mRNA's of 38S and 24S were detected. The 24S virus-specific mRNA is predominantly derived from the 3' half of the M-MuLV genome, since cDNAgag(pol) (complementary to the 5' half of the M-MuLV genome) could not efficiently anneal with this mRNA. However, sequences complementary to cDNA synthesized from the extreme 5' end of M-MuLV 38S RNA (cDNA 5') are present in the 24S virus-specific mRNA, since cDNA 5' (130 nucleotides) efficiently annealed with this mRNA. The annealing of cDNA 5' was not due to repetition of 5' terminal nucleotide sequences at the 3' end of M-MuLV 38S RNA, since smaller cDNA 5' molecules (60 to 70 nucleotides), which likely lack the terminal repetition, also efficiently annealed with the 24S mRNA. The sequences in 24S virus-specific mRNA recognized by cDNA 5' are not present in 3' fragments of virion RNA that are the same length. Therefore, it appears that RNA sequences from the extreme 5' end of the M-MuLV genome may be transposed to sequences from the 3' half of the M-MuLV 38S RNA during synthesis and processing of the 24S virus-specific mRNA. These results may indicate a phenomenon similar to the RNA splicing processes that occur during synthesis of adenovirus and papovavirus mRNA's.

摘要

对感染莫洛尼鼠白血病病毒(M-MuLV)的小鼠细胞纯化多核糖体中的病毒特异性mRNA进行琼脂糖凝胶电泳分析,然后将凝胶切片与M-MuLV特异性互补DNA(cDNA)杂交。凝胶的大小分辨率优于先前分析中使用的蔗糖梯度,检测到了38S和24S的两种病毒特异性mRNA。24S病毒特异性mRNA主要来源于M-MuLV基因组的3'半部分,因为cDNAgag(pol)(与M-MuLV基因组的5'半部分互补)不能有效地与这种mRNA退火。然而,24S病毒特异性mRNA中存在与从M-MuLV 38S RNA的极端5'端合成的cDNA(cDNA 5')互补的序列,因为cDNA 5'(130个核苷酸)能有效地与这种mRNA退火。cDNA 5'的退火不是由于M-MuLV 38S RNA 3'端5'末端核苷酸序列的重复,因为可能缺乏末端重复的较小的cDNA 5'分子(60至70个核苷酸)也能有效地与24S mRNA退火。cDNA 5'识别的24S病毒特异性mRNA中的序列不存在于相同长度的病毒粒子RNA的3'片段中。因此看来,在24S病毒特异性mRNA的合成和加工过程中,M-MuLV基因组极端5'端的RNA序列可能转位到了M-MuLV 38S RNA 3'半部分的序列中。这些结果可能表明存在一种类似于腺病毒和乳头瘤病毒mRNA合成过程中发生的RNA剪接过程的现象。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8fc/354084/805d09e08ea8/jvirol00197-0275-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8fc/354084/805d09e08ea8/jvirol00197-0275-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c8fc/354084/805d09e08ea8/jvirol00197-0275-a.jpg

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