Effect of mutations in a simian virus 40 PolyA signal enhancer on green fluorescent protein reporter gene expression

Our previous studies have shown that tandem Alu repeats inhibit green fluorescent protein (GFP) gene expression when inserted downstream of the GFP gene in the pEGFP-C1 vector. We found that the 22R sequence (5'-GTGAAAAAAATGCTTTATTTGT-3') from the antisense PolyA (240 bp polyadenylation si...

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Published in:Genetics and molecular research 2011-01, Vol.10 (3), p.1866-1883
Main Authors: Wang, H G, Wang, X F, Jing, X Y, Li, Z, Zhang, Y, Lv, Z J
Format: Article
Language:English
Subjects:
Alu Elements - genetics
Base Sequence
Cell Line, Tumor
DNA Primers
Gene Expression Regulation, Viral
Genes, Reporter
Genetic Vectors
Green Fluorescent Proteins - biosynthesis
Green Fluorescent Proteins - genetics
HeLa Cells
Humans
Inverted Repeat Sequences
Plasmids
Poly A - genetics
RNA 3' Polyadenylation Signals
RNA, Viral - genetics
RNA, Viral - metabolism
Sequence Analysis, DNA
Simian virus 40 - genetics
Simian virus 40 - metabolism
Viral Proteins - genetics
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Summary:Our previous studies have shown that tandem Alu repeats inhibit green fluorescent protein (GFP) gene expression when inserted downstream of the GFP gene in the pEGFP-C1 vector. We found that the 22R sequence (5'-GTGAAAAAAATGCTTTATTTGT-3') from the antisense PolyA (240 bp polyadenylation signal) of simian virus 40, eliminated repression of GFP gene expression when inserted between the GFP gene and the Alu repeats. The 22R sequence contains an imperfect palindrome; based on RNA structure software prediction, it forms an unstable stem-loop structure, including a loop, a first stem, a bulge, and a second stem. Analysis of mutations of the loop length of the 22R sequence showed that the three-nucleotide loop (wild-type, 22R) induced much stronger GFP expression than did other loop lengths. Two mutations, 4TMI (A7→T, A17→T) and 5AMI (A6→T, T18→A), which caused the base type changes in the bulge and in the second stem in the 22R sequence, induced stronger GFP gene expression than 22R itself. Mutation of the bulge base (A17→T), leading to complete complementation of the stem, caused weaker GFP gene expression. Sequences without a palindrome (7pieA, 5'-GTGAAAAAAATG CAAAAAAAGT-3', 7pieT, 5'-GTGTTTTTTTTGCTTTTTTTGT-3') did not activate GFP gene expression. We conclude that an imperfect palindrome affects and can increase GFP gene expression.
ISSN:1676-5680
1676-5680
DOI:10.4238/vol10-3gmr1169