Your search keyword '"Zhang, Xiang Li"' showing total 2 results

1. A metabolic and genomic assessment of sugar fermentation profiles of the thermophilic Thermotogales, Fervidobacterium pennivorans.

Author

Wushke, Scott, Fristensky, Brian, Zhang, Xiang Li, Spicer, Vic, Krokhin, Oleg V., Levin, David B., Stott, Matthew B., and Sparling, Richard

Subjects

FERMENTATION, THERMOPHILIC bacteria, CELLOBIOSE, NUCLEOTIDE sequence, GLUCONATE dehydrogenase

Abstract

A metabolic, genomic and proteomic assessment of Fervidobacterium pennivorans strains was undertaken to clarify the metabolic and genetic capabilities of this Thermotogales species. The type strain Ven5 originally isolated from a hot mud spa in Italy, and a newly isolated strain (DYC) from a hot spring at Ngatamariki, New Zealand, were compared for metabolic and genomic differences. The fermentation profiles of both strains on cellobiose generated similar major end products (acetate, alanine, glutamate, H2, and CO2). The vast majority of end products produced were redox neutral, and carbon balances were in the range of 95-115%. Each strain showed distinct fermentation profiles on sugar substrates. The genome of strain DYC was sequenced and shown to have high sequence similarity and synteny with F. pennivorans Ven5 genome, suggesting they are the same species. The unique genome regions in Ven5, corresponded to genes involved in the Entner-Doudoroff pathway confirming our observation of DYC’s inability to utilize gluconate. Genome analysis was able to elucidate pathways involved in production of the observed end-products with the exception of alanine and glutamate synthesis which were resolved with less clarity due to poor sequence identity and missing critical enzymes within the pathway, respectively. [ABSTRACT FROM AUTHOR]

Published

2018

2. Description of a cryptic thermophilic (pro)phage, CBP1 from <italic>Caldibacillus debilis</italic> strain GB1.

Author

Wushke, Scott, Jin, Zimo, Spicer, Victor, Zhang, Xiang Li, Fristensky, Brian, Krokhin, Oleg V., Levin, David B., and Sparling, Richard

Subjects

BACTERIAL chromosomes, BACTERIOPHAGES, PROTEIN expression, GENE expression in bacteria, BACTERIAL growth, THERMOPHILIC bacteria

Abstract

This study characterizes a cryptic (pro)phage-related sequence within the Caldibacillus debilis GB1 genome, designated CBP1.CBP1 is a Siphoviridae-like genome highly related to GBVS1 from Geobacillus sp. 6k51. The CBP1genome is a 37,315 bp region containing 69 putative ORFs with a GC content of 42% flanked on both sides by host DNA integrated into the main bacterial chromosome (contig 16). Bioinformatic analyses identified cassettes of genes within the CBP1 genome that were similar in function, yet distinct in sequence, from genes previously identified in GBVS1. All of CBP1 genes had less than 60% amino acid sequence identity with GBVS1by tBLASTx, with the exception of the TMP repeat gene. CBP1 possessed all the necessary genes to undergo a temperate/lytic phage life cycle, including excision, replication, structural genes, DNA packaging, and cell lyses. Proteomic analysis of CBP1 revealed the expression of 5 proteins. One of the expressed proteins was a transcriptional regulator protein homologous to the bacteriophage λ repressor protein (cI) expressed in high amounts from the CBP1 region, consistent with a lysogenic phage in a repressed state. The CBP1 protein expression profile during host growth provides unique insight into thermophilic Siphoviridae-like phages in the repressed state within their host cells. [ABSTRACT FROM AUTHOR]

Published

2018