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Full-Text Articles in Biology
Glycoside Hydrolases Family 20 (Gh20) Represent Putative Virulence Factors That Are Shared By Animal Pathogenic Oomycetes, But Are Absent In Phytopathogens, Isabel Olivera, Katrina Fins, Sara Rodriguez, Sumayyah K. Abiff, Jaime Tartar, Aurelien Tartar
Glycoside Hydrolases Family 20 (Gh20) Represent Putative Virulence Factors That Are Shared By Animal Pathogenic Oomycetes, But Are Absent In Phytopathogens, Isabel Olivera, Katrina Fins, Sara Rodriguez, Sumayyah K. Abiff, Jaime Tartar, Aurelien Tartar
Biology Faculty Articles
Background
Although interest in animal pathogenic oomycetes is increasing, the molecular basis mediating oomycete-animal relationships remains virtually unknown. Crinkler (CRN) genes, which have been traditionally associated with the cytotoxic activity displayed by plant pathogenic oomycetes, were recently detected in transcriptome sequences from the entomopathogenic oomycete Lagenidium giganteum, suggesting that these genes may represent virulence factors conserved in both animal and plant pathogenic oomycetes. In order to further characterize the L. giganteum pathogenome, an on-going genomic survey was mined to reveal novel putative virulence factors, including canonical oomycete effectors Crinkler 13 (CRN13) orthologs. These novel sequences provided a basis to …
Feralisation Targets Different Genomic Loci To Domestication In The Chicken, M. Johnsson, Eben Gering, P. Willis, S. Lopez, L. Van Dorp, G. Hellenthal, R. Henriksen, U. Friberg, D. Wright
Feralisation Targets Different Genomic Loci To Domestication In The Chicken, M. Johnsson, Eben Gering, P. Willis, S. Lopez, L. Van Dorp, G. Hellenthal, R. Henriksen, U. Friberg, D. Wright
Biology Faculty Articles
Feralisation occurs when a domestic population recolonizes the wild, escaping its previous restricted environment, and has been considered as the reverse of domestication. We have previously shown that Kauai Island's feral chickens are a highly variable and admixed population. Here we map selective sweeps in feral Kauai chickens using whole-genome sequencing. The detected sweeps were mostly unique to feralisation and distinct to those selected for during domestication. To ascribe potential phenotypic functions to these genes we utilize a laboratory-controlled equivalent to the Kauai population—an advanced intercross between Red Junglefowl and domestic layer birds that has been used previously for both …
Successful Enrichment And Recovery Of Whole Mitochondrial Genomes From Ancient Human Dental Calculus, Andrew T. Ozga, Maria A. Nieves-Colon, Tanvi P. Honap, Krithivasan Sankaranarayanan, Courtney A. Hofman, George R. Milner, Cecil M. Lewis Jr., Anne C. Stone, Christina Warinner
Successful Enrichment And Recovery Of Whole Mitochondrial Genomes From Ancient Human Dental Calculus, Andrew T. Ozga, Maria A. Nieves-Colon, Tanvi P. Honap, Krithivasan Sankaranarayanan, Courtney A. Hofman, George R. Milner, Cecil M. Lewis Jr., Anne C. Stone, Christina Warinner
Biology Faculty Articles
Objectives
Archaeological dental calculus is a rich source of host‐associated biomolecules. Importantly, however, dental calculus is more accurately described as a calcified microbial biofilm than a host tissue. As such, concerns regarding destructive analysis of human remains may not apply as strongly to dental calculus, opening the possibility of obtaining human health and ancestry information from dental calculus in cases where destructive analysis of conventional skeletal remains is not permitted. Here we investigate the preservation of human mitochondrial DNA (mtDNA) in archaeological dental calculus and its potential for full mitochondrial genome (mitogenome) reconstruction in maternal lineage ancestry analysis.
Materials and …
Mitochondrial Genome Of An Atlantic White Shark (Carcharodon Carcharias), Nicholas J. Marra, Minghui Wang, Qi Sun, Paulina D. Pavinski Bitar, Michael J. Stanhope, Mahmood S. Shivji
Mitochondrial Genome Of An Atlantic White Shark (Carcharodon Carcharias), Nicholas J. Marra, Minghui Wang, Qi Sun, Paulina D. Pavinski Bitar, Michael J. Stanhope, Mahmood S. Shivji
Biology Faculty Articles
Here we report the first full mitochondrial genome sequence for a white shark caught in the Atlantic Ocean. The mitochondrial genome is 16,745 bp in length and contains 13 protein-coding genes, 22 tRNA genes, 2 rRNA genes, and a non-coding control region. The base composition of this mtDNA lineage is A: 30.7%, C: 26.9%, G: 13.8%, and T: 28.6%. In concordance with previous population genetic studies, the Atlantic caught individual forms a separate lineage from individuals caught on either side of the Pacific Ocean.