Chul Jun Goh scite author profile

Closteroviruses (genus Closterovirus, family Closteroviridae) are RNA viruses that infect and cause viral diseases in many economically important plants. Genome sequences of two novel closteroviruses named fig virus A (FiVA) and fig virus B (FiVB) were identified in high-throughput sequencing data obtained from a fig latex sample. FiVA and FiVB genomes, whose lengths are 19,333 bp and 18,741 bp, respectively, were predicted to have 14 shared open reading frames, nine of which had homologs in other closteroviruses. Phylogenetic analysis confirmed that FiVA and FiVB are novel closteroviruses forming a strong subclade with fig mild mottle-associated virus within the genus Closterovirus. FiVA and FiVB genome sequences identified in this study are useful resources for investigating the evolution of closterovirus genome organization.

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Loss of gene function and evolution of human phenotypes

Choi

Goh

et al. 2015

BMB Reports

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Humans have acquired many distinct evolutionary traits after the human-chimpanzee divergence. These phenotypes have resulted from genetic changes that occurred in the human genome and were retained by natural selection. Comparative primate genome analyses reveal that loss-of-function mutations are common in the human genome. Some of these gene inactivation events were revealed to be associated with the emergence of advantageous phenotypes and were therefore positively selected and fixed in modern humans (the “less-ismore” hypothesis). Representative cases of human gene inactivation and their functional implications are presented in this review. Functional studies of additional inactive genes will provide insight into the molecular mechanisms underlying acquisition of various human-specific traits. [BMB Reports 2015; 48(7): 373-379]

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Analysis of proteolytic processing sites in potyvirus polyproteins revealed differential amino acid preferences of NIa-Pro protease in each of seven cleavage sites

Goh

Hahn

2021

PLoS ONE

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Potyviruses encode a large polyprotein that undergoes proteolytic processing, producing 10 mature proteins: P1, HC-Pro, P3, 6K1, CI, 6K2, VPg, NIa-Pro, NIb-RdRp, and CP. While P1/HC-Pro and HC-Pro/P3 junctions are cleaved by P1 and HC-Pro, respectively, the remaining seven are processed by NIa-Pro. In this study, we analyzed 135 polyprotein sequences from approved potyvirus species and deduced the consensus amino acid residues at five positions (from −4 to +1, where a protease cleaves between −1 and +1) in each of nine cleavage sites. In general, the newly deduced consensus sequences were consistent with the previous ones. However, seven NIa-Pro cleavage sites showed distinct amino acid preferences despite being processed by the same protease. At position −2, histidine was the dominant amino acid residue in most cleavage sites (57.8–60.7% of analyzed sequences), except for the NIa-Pro/NIb-RdRp junction where it was absent. At position −1, glutamine was highly dominant in most sites (88.2–97.8%), except for the VPg/NIa-Pro junction where glutamic acid was found in all the analyzed proteins (100%). At position +1, serine was the most abundant residue (47.4–86.7%) in five out of seven sites, while alanine (52.6%) and glycine (82.2%) were the most abundant in the P3/6K1 and 6K2/VPg junctions, respectively. These findings suggest that each NIa-Pro cleavage site is finely tuned for differential characteristics of proteolytic reactions. The newly deduced consensus sequences may be useful resources for the development of models and methods to accurately predict potyvirus polyprotein processing sites.

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Chul Jun Goh

Identification of Two Novel Amalgaviruses in the Common Eelgrass (Zostera marina) and in Silico Analysis of the Amalgavirus +1 Programmed Ribosomal Frameshifting Sites

Identification of Trichosanthes associated rhabdovirus 1, a novel member of the genus Cytorhabdovirus of the family Rhabdoviridae, in the Trichosanthes kirilowii transcriptome

Two novel closteroviruses, fig virus A and fig virus B, identified by the analysis of the high-throughput RNA-sequencing data of fig (Ficus carica) latex

Loss of gene function and evolution of human phenotypes

Analysis of proteolytic processing sites in potyvirus polyproteins revealed differential amino acid preferences of NIa-Pro protease in each of seven cleavage sites

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