Your search keyword '"Shu-Kun Tang"' showing total 2 results

1. Low Temperature Adaptation Is Not the Opposite Process of High Temperature Adaptation in Terms of Changes in Amino Acid Composition.

Author

Ling-Ling Yang, Shu-Kun Tang, Ying Huang, and Xiao-Yang Zhi

Subjects

*AMINO acids, *LOW temperatures, *BIOLOGICAL adaptation, *HOMOLOGOUS chromosomes, *PROKARYOTES

Abstract

Previous studies focused on psychrophilic adaptation generally have demonstrated that multiple mechanisms work together to increase protein flexibility and activity, as well as to decrease the thermostability of proteins. However, the relationship between high and low temperature adaptations remains unclear. To investigate this issue, we collected the available predicted whole proteome sequences of species with different optimal growth temperatures, and analyzed amino acid variations and substitutional asymmetry in pairs of homologous proteins from related species. We found that changes in amino acid composition associated with low temperature adaptation did not exhibit a coherent opposite trend when compared with changes in amino acid composition associated with high temperature adaptation. This result indicates that during their evolutionary histories the proteome-scale evolutionary patterns associated with prokaryotes exposed to low temperature environments were distinct from the proteome-scale evolutionary patterns associated with prokaryotes exposed to high temperature environments in terms of changes in amino acid composition of the proteins. [ABSTRACT FROM AUTHOR]

Published

2015

2. New genus-specific primers for the PCR identification of novel isolates of the genus Streptomonospora.

Author

Xiao-Yang Zhi, Shu-Kun Tang, Wen-Jun Li, Li-Hua Xu, and Cheng-Lin Jiang

Subjects

*POLYMERASE chain reaction, *PHYLOGENY, *ACTINOMYCETALES, *SALT lakes, *GENETICS

Abstract

The halophilic actinomycete genus Streptomonospora, forming a distinct branch in the 16S rRNA gene phylogenetic tree adjacent to the genera Nocardiopsis and Thermobifida, was first proposed by Cui et al. to accommodate the species type Streptomonospora salina. During a biodiversity and taxonomic study on halophilic filamentous actinomycetes from a saline lake in western China, numerous new halophilic actinomycetes strains were isolated. To confirm whether they are members of the genus Streptomonospora, one set of genus-specific oligonucleotides was designed which allows rapid detection of members of the genus Streptomonospora by means of PCR amplification. The genus specificity of these primers was validated with reference strains as well as with wild-type isolates, which exhibited morphological characteristics common to this genus. [ABSTRACT FROM AUTHOR]

Published

2006