Albert J Poustka
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Explore the profile of Albert J Poustka including associated specialties, affiliations and a list of published articles.
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36
Citations
1433
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Recent Articles
1.
Bergmeier F, Brachmann A, Kocot K, Leasi F, Poustka A, Schrodl M, et al.
BMC Ecol Evol
. 2024 Oct;
24(1):128.
PMID: 39425046
Background: With the advances in high-throughput sequencing and bioinformatic pipelines, mitochondrial genomes have become increasingly popular for phylogenetic analyses across different clades of invertebrates. Despite the vast rise in available...
2.
Marletaz F, Couloux A, Poulain J, Labadie K, Da Silva C, Mangenot S, et al.
Cell Genom
. 2023 Apr;
3(4):100295.
PMID: 37082140
Sea urchins are emblematic models in developmental biology and display several characteristics that set them apart from other deuterostomes. To uncover the genomic cues that may underlie these specificities, we...
3.
Dolezalkova-Kastankova M, Mazepa G, Jeffries D, Perrin N, Plotner M, Plotner J, et al.
Sci Rep
. 2021 Jan;
11(1):1633.
PMID: 33452404
Hybridogenesis is a reproductive tool for sexual parasitism. Hybridogenetic hybrids use gametes from their sexual host for their own reproduction, but sexual species gain no benefit from such matings as...
4.
Kocot K, Poustka A, Stoger I, Halanych K, Schrodl M
Sci Rep
. 2020 Jan;
10(1):101.
PMID: 31919367
Relationships among the major lineages of Mollusca have long been debated. Morphological studies have considered the rarely collected Monoplacophora (Tryblidia) to have several plesiomorphic molluscan traits. The phylogenetic position of...
5.
Hogan J, Keenan J, Luo L, Ibn-Salem J, Lamba A, Schatzberg D, et al.
Dev Biol
. 2019 Dec;
460(2):139-154.
PMID: 31816285
Embryonic development is arguably the most complex process an organism undergoes during its lifetime, and understanding this complexity is best approached with a systems-level perspective. The sea urchin has become...
6.
Philippe H, Poustka A, Chiodin M, Hoff K, Dessimoz C, Tomiczek B, et al.
Curr Biol
. 2019 May;
29(11):1818-1826.e6.
PMID: 31104936
Xenoturbella and the acoelomorph worms (Xenacoelomorpha) are simple marine animals with controversial affinities. They have been placed as the sister group of all other bilaterian animals (Nephrozoa hypothesis), implying their...
7.
Piacentino M, Zuch D, Fishman J, Rose S, Speranza E, Li C, et al.
Development
. 2016 Jan;
143(4):703-14.
PMID: 26755701
The sea urchin larval skeleton offers a simple model for formation of developmental patterns. The calcium carbonate skeleton is secreted by primary mesenchyme cells (PMCs) in response to largely unknown...
8.
Grau J, Nunez J, Plotner J, Poustka A
Mitochondrial DNA A DNA Mapp Seq Anal
. 2015 Jun;
27(4):2817-8.
PMID: 26094990
The mitochondrial (mt) genome of Telmatobufo australis is a circular molecule of 17,989 bp in length, comprising 13 protein-coding genes, 22 transfer RNA genes, and two ribosomal RNA genes. Gene...
9.
Perea-Atienza E, Gavilan B, Chiodin M, Abril J, Hoff K, Poustka A, et al.
J Exp Biol
. 2015 Feb;
218(Pt 4):618-28.
PMID: 25696825
Xenacoelomorpha is, most probably, a monophyletic group that includes three clades: Acoela, Nemertodermatida and Xenoturbellida. The group still has contentious phylogenetic affinities; though most authors place it as the sister...
10.
Grau J, Poustka A, Meixner M, Plotner J
BMC Genomics
. 2014 Jul;
15:626.
PMID: 25056159
Background: LTR retroelements (LTR REs) constitute a major group of transposable elements widely distributed in eukaryotic genomes. Through their own mechanism of retrotranscription LTR REs enrich the genomic landscape by...