Nucleotide sequence analysis of cryptic plasmid pAM5 from Acidiphilium multivorum
Metadata of CSIR Papers
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| Title |
Nucleotide sequence analysis of cryptic plasmid pAM5 from Acidiphilium multivorum
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| Creator |
Singh, SK
Banerjee, PC |
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| Subject |
Genetics & Heredity
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| Description |
Plasmid pAM5 of Acidiphilium multivorum JCM-8867 has been completely sequenced by initial cloning of HindIII-PstI fragments followed by primer walking. It has a size of 5161 bp and single site for several restriction enzymes as revealed by DNA sequencing. Sequence analysis predicts five putative open reading frames. ORF1 and ORF3 show significant identity with various plasmid encoded mobilization (Mob) and replication initiation (Rep) proteins, respectively. The putative Mob protein has several characteristics of the MOBQ family having the motifs with conserved amino acid residues. Upstream of the Mob ORF, there exists a 34 bp oriT region having a nic consensus sequence. The constructed plasmid pSK1 bearing pAM5 mob region can be mobilized to Escherichia coli in presence of conjugative plasmid pRK2013. The replication module comprises of several DnaA like boxes, several perfect direct and inverted repeats, a potential prokaryotic promoter and putative rep gene. The rep module is very similar to several theta replicating iteron family plasmids, suggesting pAM5 replication to follow the same course. Any phenotypic character determinant (e.g., metal resistance, antibiotic resistance etc.) gene is absent in pAM5, suggesting this plasmid to be cryptic in nature. However, a pAM5 derivative plasmid named pSK2, containing the putative pAM5 rep region, can replicate and be stably maintained in Acidiphilium, Acidocella, and E coli strains; it can also carry foreign DNA fragments. Thus, pSK2 could serve as a cloning shuttle vector between these bacteria. It was observed that pAM5 Rep is essential for pSK2 to replicate in acidophiles. In its natural host, A. multivorum JCM-8867, pAM5 maintains a copy number of 50-60, and its derivative pSK2 maintains a comparatively, higher copy number in E coli than in acidophiles. (c) 2007 Elsevier Inc. All rights reserved.
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| Publisher |
ACADEMIC PRESS INC ELSEVIER SCIENCESAN DIEGO525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA
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| Date |
2011-09-20T12:12:30Z
2011-09-20T12:12:30Z 2007 |
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| Type |
Article
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| Identifier |
PLASMID
0147-619X http://hdl.handle.net/123456789/14301 |
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| Language |
English
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