Article | 03-December-2017
The taxonomy and the systematics of the genus Makatinus are discussed by means of the characterization of its morphological pattern and the first molecular (D2–D3 expansion segments of 28S rDNA) analysis of a representative of this taxon, Makatinus crassiformis from Costa Rica. The presence of two or more pairs of male ad-cloacal genital papillae is the most characteristic autapomorphy of the genus, but the status of its species on this concern differ among them. Both morphological and
REYES PENA-SANTIAGO,
INGRID VARELA
Journal of Nematology, Volume 49 , ISSUE 3, 245–253
research-article | 09-January-2020
Sue Michael
South Australian Geographical Journal, Volume 115 , ISSUE 1, 1–17
research-article | 30-November-2020
The systematics and host specificities of species belonging to the genus Heligmosomoides (Hall, 1916) is still ambiguous (Cable et al., 2006; Behnke and Harris, 2010; Clough and Råberg, 2014) and North American forms remain especially understudied (Harris et al., 2015). Elucidating relationships within the genus are important as Heligmosomoides species are commonly used in immunological studies and as models for helminth infections in humans and livestock (Cable et al., 2006; Behnke and Harris
Malorri R. Hughes,
Alexandra A. Gibson,
Emily R. Wolfe,
Cecily D. Bronson,
Deborah A. Duffield
Journal of Nematology, Volume 53 , 1–11
research-article | 26-March-2021
Alina E. Safonova,
Anastasia N. Voronova,
Konstantin S. Vainutis
Journal of Nematology, Volume 53 , 1–10
Research Article | 22-May-2019
Metschnikowia spp. are extensively studied “non-conventional” yeasts. Strains belonging to these genera are considered as non-pathogenic and safe. The unique properties of Metschnikowia spp. allow us to look at these microorganisms as a promising subject for evolutionary genetics, taxonomy, ecology, as well as a natural biocontrol agent in biotechnology. This article provides a synthesis of the systematics, morphology, ecology and physiology of Metschnikowia spp., with special
Ewelina Pawlikowska,
Dorota Kręgiel
Postępy Mikrobiologii - Advancements of Microbiology, Volume 56 , ISSUE 4, 405–415
Research Article | 03-December-2018
primers were developed based on a very large 276 taxon alignment of 124 agriculturally important nematode species, and tested on problematic nematode taxa such as Aphelenchoides, Bursaphelenchus, Ditylenchus, and Panagrolaimus. New primers and protocols are provided for successful generation of sequences useful in future investigations of nematode systematics.
L. K. Carta,
S. Li
Journal of Nematology, Volume 50 , ISSUE 4, 533–542
research-article | 12-January-2022
Monika Kozieł,
Anna Gałązka
Advancements of Microbiology – Postepy Mikrobiologii, Volume 60 , ISSUE 4, 299–308
research-article | 30-November-2019
J. D. Eisenback,
P. Vieira
Journal of Nematology, Volume 52 , 1–13
Article | 30-November-2018
aggressive behaviour in infected animals is Lyssavirus, which facilitates its further spread [32].
2.
Systematics
As recently as 60 years ago the genus Lyssavirus was thought to only include one virus – RABV (Rabies virus), however, the polyclonal antibodies tests using the cross-seroneutralisation method indicated antigenic diversity of the viruses isolated from infected bats, which led to distinguishing 5 different serotypes [29, 65]. The information obtained through the introduction of molecular
Przemysław Gałązka,
Patryk Kaczor,
Klaudyna Grzelakowska,
Kamil Leis
Postępy Mikrobiologii - Advancements of Microbiology, Volume 58 , ISSUE 2, 153–164
Article | 21-July-2017
LYNN K. CARTA,
SHIGUANG LI,
ANDREA M. SKANTAR,
GEORGE NEWCOMBE
Journal of Nematology, Volume 48 , ISSUE 1, 28–33
Article | 03-December-2017
THOMAS POWERS,
TIMOTHY HARRIS,
REBECCA HIGGINS,
PETER MULLIN,
KIRSTEN POWERS
Journal of Nematology, Volume 49 , ISSUE 3, 236–244
Research Article | 03-December-2018
L. K. Carta,
W. K. Thomas,
V. B. Meyer-Rochow
Journal of Nematology, Volume 50 , ISSUE 4, 479–486
research-article | 30-November-2020
Allie N. Denham,
Malorri R. Hughes,
Robert C. Dowler,
Nicholas J. Negovetich,
Loren K. Ammerman
Journal of Nematology, Volume 53 , 1–8
research-article | 30-November-2018
-rule consensus tree. Posterior probabilities are given on appropriate clades. Trees were visualized using TreeView (Page, 1996).
Results and discussion
Systematics
Cryphodera gayae n. sp.
(Figs. 1–5; Table 1).
Table 1.
Morphometric measurements of Cryphodera gayae n. sp.
Paratype
Stage
Character
Holotype
Range (min.–max.)
Mean ± SD
Female
n
10
L (including neck)
462.7
363.1–544.6
471.5 ± 53.8
L (excluding neck)
380.3
430.6–255.5
367.8 ± 51.4
W (width
Heonil Kang,
Jongmin Seo,
Garam Han,
Donggeun Kim,
Insoo Choi
Journal of Nematology, Volume 51 , 1–12
research-article | 26-March-2021
Chantelle Girgan,
Gerhard Du Preez,
Hendrika Fourie,
Milad Rashidifard
Journal of Nematology, Volume 53 , 1–12
research-article | 24-April-2020
Malorri R. Hughes,
Deborah A. Duffield,
Dana K. Howe,
Dee R. Denver
Journal of Nematology, Volume 52 , 1–6
Research Article | 03-September-2018
Mehrdad Madani,
Mario Tenuta
Journal of Nematology, Volume 50 , ISSUE 2, 163–182
research-article | 30-November-2019
default parameters, followed by manually trimming off of the poorly aligned ends. The best nucleotide substitution model of each gene alignment (see Figures) was determined by jModelTest 2.1.10. Bayesian phylogenetic analysis (MrBayes 3.2.6) was carried out using the selected models, analyses were run under 1 × 106 generations (4 runs), and Markov chains were sampled every 100 generations, and 20% of the converged runs were regarded as burn-in (Huelsenbeck and Ronquist, 2001).
Results
Systematics
Phougeishangbam Rolish Singh,
Gerrit Karssen,
Marjolein Couvreur,
Wim Bert
Journal of Nematology, Volume 52 , 1–14
research-article | 22-February-2021
converged runs regarded as burn-in (Huelsenbeck and Ronquist, 2001). To check for additional distinctiveness of our sequences in phylogenetic trees, the species delimitation plugin of Geneious Prime 2020.0.5 (Masters et al., 2011) was used to calculate Rosenberg’s PAB, which tests the probability for reciprocal monophyly of sequence clusters (Rosenberg, 2007).
Results
Systematics
Rotylenchus wimbii n. sp.
Figures 1 and 2, Tables 1 and 2.
Table 1.
Morphometric data for fixed female Rotylenchus
Phougeishangbam Rolish Singh,
Gerrit Karssen,
Kelvin Gitau,
Cecilia Wanjau,
Marjolein Couvreur,
Njira Njira Pili,
Godelieve Gheysen,
Wim Bert
Journal of Nematology, Volume 53 , 1–14