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Palindromic base sequences and replication of eukaryote chromosome ends
Nature, 1974A new theory is proposed to explain the synthesis of the 5′ ends of linear DNA molecules. It suggests that chromosome ends consist of palindromic base sequences. These can form self-complementary hairpin loops, which can be converted by DNA ligase, a specific endonuclease, and DNA polymerase, into completely replicated ends.
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[40] Positive selection vectors based on palindromic DNA sequences
1992Publisher Summary Long palindromic DNA sequences lead to instability, and when exceeding a certain threshold of about 150 bp, to nonviability of the carrier replicon in bacteria. The viability is restored by placing any non-palindromic DNA sequence at least 50 bp in length between the inverted repeats.
Josef Altenbuchner, P Viell, I Pelletier
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Scandinavian Journal of Infectious Diseases, 2013
A. Ergin, G. Hasçelik, O. Eser
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A. Ergin, G. Hasçelik, O. Eser
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Efficient Computation of Palindromes in Sequences with Uncertainties*
Fundamenta Informaticae, 2018Chang Liu +3 more
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Palindrome‐induced deletion in enterobacterial repetitive sequences
Molecular Microbiology, 1996Paul M. Sharp, David R. F. Leach
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Palindrome Words on the Arnoux-Rauzy Sequences
International Journal of Open Problems in Computer Science and Mathematics, 2017openaire +1 more source