research-article | 30-November-2018
Reny Mathew,
Mark Burke,
Charles H. Opperman
journal of nematology, Volume 51 , 1–2
research-article | 30-November-2019
current state, this draft genome can provide support for comparative genomics of Steinernema nematodes, understand the evolution of genome network, genomic variation between different isolates, evolutionary process, and enable the functional genomics among entomopathogenic nematodes.
The Whole Genome Project of S. diaprepesi is deposited at GenBank under the accession number JAANPW000000000. All DNA sequence data are deposited in GenBank under Biosample No. SAMN14073714 Bio project No. PRJNA605202.
Anil Baniya,
Jose C. Huguet-Tapia,
Peter DiGennaro
Journal of Nematology, Volume 52 , 1–4
research-article | 30-November-2018
, free-living species of Panagrolaimidae have lagged behind, as have free-living species of Clade IV (sensu Blaxter et al., 1998) more generally. A major contribution to the genomics of Panagrolaimidae was the genome sequence of Panagrellus redivivus, a species championed for decades as a laboratory model for genetics and development, especially as a satellite to Caenorhabditis elegans (Srinivasan et al., 2013). More recently, several species of Panagrolaimus have been sequenced to study the
Erik J. Ragsdale,
Georgios Koutsovoulos,
Joseph F. Biddle
journal of nematology, Volume 51 , 1–4
Article | 24-July-2017
DEE R. DENVER,
ERIK J. RAGSDALE,
W. KELLEY THOMAS,
INGA A. ZASADA
Journal of Nematology, Volume 49 , ISSUE 2, 125–126
research-article | 17-September-2019
total of 43 Mb from the ASM476467v1 assembly that matched with greater than 75% identity to the Rd assembly and 38 Mb that matched the Rv assembly.
The Rd and Rv assemblies are uploaded to NCBI (NCBI BioProject PRJNA541590, accession no. VAHI00000000 and VAHH00000000). The addition of these two genome sequences from different Costa Rican populations of R. similis will be an additional resource for the nematology community and could provide tools for future work in nematode comparative genomics
Catherine L. Wram,
Cedar N. Hesse,
Sulochana K. Wasala,
Dana K. Howe,
Amy B. Peetz,
Dee R. Denver,
Danny Humphreys-Pereira,
Inga A. Zasada
journal of nematology, Volume 51 , 1–4
research-article | 17-March-2020
Nik Susič,
Georgios D. Koutsovoulos,
Cristian Riccio,
Etienne G. J. Danchin,
Mark L. Blaxter,
David H. Lunt,
Polona Strajnar,
Saša Širca,
Gregor Urek,
Barbara Gerič Stare
Journal of Nematology, Volume 52 , 1–5
research-article | 16-April-2020
U-Hwa Nam,
Jong-Oh Kim,
Jeong-Ho Kim
Journal of Nematology, Volume 52 , 1–16
research-article | 30-November-2020
has become possible and may open new avenues for studying its evolutionary history.
Comparative genomics of RKN species has revealed a striking diversity in genome structure (e.g. chromosome counts, ploidy level, duplicated regions, heterozygosity) that might be linked to their different reproductive modes and species origin (Blanc-Mathieu et al., 2017; Castagnone-Sereno et al., 2013; Jaron et al., 2020; Triantaphyllou, 1985). Interestingly, despite prominent asexual reproduction in several RKN
Ngan Thi Phan,
Guillaume Besnard,
Rania Ouazahrou,
William Solano Sánchez,
Lisa Gil,
Sophie Manzi,
Stéphane Bellafiore
Journal of Nematology, Volume 53 , 1–6
Research Article | 03-September-2018
Vishal Singh Somvanshi,
Madhura Tathode,
Rohit Nandan Shukla,
Uma Rao
Journal of Nematology, Volume 50 , ISSUE 2, 111–116
Research Article | 17-October-2018
Hanyong Zhang,
Erika Okii,
Eiji Gotoh,
Susumu Shiraishi
Journal of Nematology, Volume 50 , ISSUE 3, 281–302