TY - JOUR
T1 - Nucleotide compositional asymmetry between the leading and lagging strands of eubacterial genomes
AU - Qu, Hongzhu
AU - Wu, Hao
AU - Zhang, Tongwu
AU - Zhang, Zhang
AU - Hu, Songnian
AU - Yu, Jun
N1 - KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: The study was supported by grants awarded to JY (2006CB910404) from the National Basic Research Program (973 Program) and from the National Science and Technology Key Project (2008ZX1004-013), the Ministry of Science and Technology of the People's Republic of China.
PY - 2010/12
Y1 - 2010/12
N2 - Nucleotide compositional asymmetry (NCA) between leading and lagging strands (LeS and LaS) is dynamic and diverse among eubacterial genomes due to different mutation and selection forces. A thorough investigation is needed in order to study the relationship between nucleotide composition dynamics and gene distribution biases. Based on a collection of 364 eubacterial genomes that were grouped according to a DnaE-based scheme (DnaE1-DnaE1, DnaE2-DnaE1, and DnaE3-PolC), we investigated NCA and nucleotide composition gradients at three codon positions and found that there was universal G-enrichment on LeS among all groups. This was due to a strong selection for G-heading (codon position1 or cp1) codons and mutation pressure that led to more G-ending (cp3) codons. Moreover, a slight T-enrichment of LeS due to the mutation of cytosine deamination at cp3 was universal among DnaE1-DnaE1 and DnaE2-DnaE1 genomes, but was not clearly seen among DnaE3-PolC genomes, in which A-enrichment of LeS was proposed to be the effect of selections unique to polC and a mutation bias toward A-richness at cp1 that may be a result of transcription-coupled DNA repair mechanisms. Furthermore, strand-biased gene distribution enhances the purine-richness of LeS for DnaE3-PolC genomes and T-richness of LeS for DnaE1-DnaE1 and DnaE2-dnaE1 genomes. © 2010 Institut Pasteur.
AB - Nucleotide compositional asymmetry (NCA) between leading and lagging strands (LeS and LaS) is dynamic and diverse among eubacterial genomes due to different mutation and selection forces. A thorough investigation is needed in order to study the relationship between nucleotide composition dynamics and gene distribution biases. Based on a collection of 364 eubacterial genomes that were grouped according to a DnaE-based scheme (DnaE1-DnaE1, DnaE2-DnaE1, and DnaE3-PolC), we investigated NCA and nucleotide composition gradients at three codon positions and found that there was universal G-enrichment on LeS among all groups. This was due to a strong selection for G-heading (codon position1 or cp1) codons and mutation pressure that led to more G-ending (cp3) codons. Moreover, a slight T-enrichment of LeS due to the mutation of cytosine deamination at cp3 was universal among DnaE1-DnaE1 and DnaE2-DnaE1 genomes, but was not clearly seen among DnaE3-PolC genomes, in which A-enrichment of LeS was proposed to be the effect of selections unique to polC and a mutation bias toward A-richness at cp1 that may be a result of transcription-coupled DNA repair mechanisms. Furthermore, strand-biased gene distribution enhances the purine-richness of LeS for DnaE3-PolC genomes and T-richness of LeS for DnaE1-DnaE1 and DnaE2-dnaE1 genomes. © 2010 Institut Pasteur.
UR - http://hdl.handle.net/10754/561576
UR - https://linkinghub.elsevier.com/retrieve/pii/S092325081000210X
UR - http://www.scopus.com/inward/record.url?scp=78649947901&partnerID=8YFLogxK
U2 - 10.1016/j.resmic.2010.09.015
DO - 10.1016/j.resmic.2010.09.015
M3 - Article
C2 - 20868744
SN - 0923-2508
VL - 161
SP - 838
EP - 846
JO - Research in Microbiology
JF - Research in Microbiology
IS - 10
ER -