Andreas Wanninger

Overview

Explore the profile of Andreas Wanninger including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 95

Citations 1221

Followers 0

Related Specialties

Biology

Anatomy & Histology

Cell Biology

Top 10 Co-Authors

Tim Wollesen

Thomas Schwaha

Christiane Todt

Bernard M Degnan

Emanuel Redl

Alen Kristof

Elisabeth Zieger

Thomas F Schwaha

Maik Scherholz

Henrike Semmler

Published In

J Morphol

Front Zool

BMC Evol Biol

Evol Dev

J Exp Zool B Mol Dev Evol

Affiliations

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Recent Articles

21.

Staggered Hox expression is more widespread among molluscs than previously appreciated

Wollesen T, Rodriguez Monje S, de Oliveira A, Wanninger A

Proc Biol Sci . 2018 Oct; 285(1888). PMID: 30305436

Hox genes are expressed along the anterior-posterior body axis in a colinear fashion in the majority of bilaterians. Contrary to polyplacophorans, a group of aculiferan molluscs with conserved ancestral molluscan...

22.

The evolution of molluscs

Wanninger A, Wollesen T

Biol Rev Camb Philos Soc . 2018 Jun; 94(1):102-115. PMID: 29931833

Molluscs are extremely diverse invertebrate animals with a rich fossil record, highly divergent life cycles, and considerable economical and ecological importance. Key representatives include worm-like aplacophorans, armoured groups (e.g. polyplacophorans,...

23.

Unity in diversity: a survey of muscular systems of ctenostome Gymnolaemata (Lophotrochozoa, Bryozoa)

Schwaha T, Wanninger A

Front Zool . 2018 Jun; 15:24. PMID: 29930689

Background: Myoanatomical studies of adult bryozoans employing fluorescent staining and confocal laser scanning microscopy (CLSM) have been chiefly conducted on freshwater bryozoans. The diversity of muscular systems in the marine...

24.

Morphology of the bryozoan Cinctipora elegans (Cyclostomata, Cinctiporidae) with first data on its sexual reproduction and the cyclostome neuro-muscular system

Schwaha T, Handschuh S, Ostrovsky A, Wanninger A

BMC Evol Biol . 2018 Jun; 18(1):92. PMID: 29898669

Background: Cyclostome bryozoans are an ancient group of marine colonial suspension-feeders comprising approximately 700 extant species. Previous morphological studies are mainly restricted to skeletal characters whereas data on soft tissues...

25.

Expression of six3 and otx in Solenogastres (Mollusca) supports an ancestral role in bilaterian anterior-posterior axis patterning

Redl E, Scherholz M, Wollesen T, Todt C, Wanninger A

Evol Dev . 2017 Dec; 20(1):17-28. PMID: 29243871

The homeodomain transcription factors six3 and otx are involved in patterning the anterior body and parts of the central nervous system (CNS) in bilaterians. Their similar expression patterns have been...

26.

Reconstructing the muscular ground pattern of phylactolaemate bryozoans: first data from gelatinous representatives

Gawin N, Wanninger A, Schwaha T

BMC Evol Biol . 2017 Nov; 17(1):225. PMID: 29115930

Background: Phylactolaemata is commonly regarded the earliest branch within Bryozoa and thus the sister group to the other bryozoan taxa, Cyclostomata and Gymnolaemata. Therefore, the taxon is important for the...

27.

Neuroanatomy of Hyalinella punctata: Common patterns and new characters in phylactolaemate bryozoans

Ambros M, Wanninger A, Schwaha T

J Morphol . 2017 Nov; 279(2):242-258. PMID: 29098716

Studies on the bryozoan adult nervous system employing immunocytochemical techniques and confocal laser scanning microscopy are scarce. To gain a better view into the structure and evolution of the nervous...

28.

Neuronal patterning of the tubular collar cord is highly conserved among enteropneusts but dissimilar to the chordate neural tube

Kaul-Strehlow S, Urata M, Praher D, Wanninger A

Sci Rep . 2017 Aug; 7(1):7003. PMID: 28765531

A tubular nervous system is present in the deuterostome groups Chordata (cephalochordates, tunicates, vertebrates) and in the non-chordate Enteropneusta. However, the worm-shaped enteropneusts possess a less complex nervous system featuring...

29.

Brain regionalization genes are co-opted into shell field patterning in Mollusca

Wollesen T, Scherholz M, Rodriguez Monje S, Redl E, Todt C, Wanninger A

Sci Rep . 2017 Jul; 7(1):5486. PMID: 28710480

The 'brain regionalization genes' Six3/6, Otx, Pax2/5/8, Gbx, and Hox1 are expressed in a similar fashion in the deuterostome, ecdysozoan, and the cephalopod brain, questioning whether this holds also true...

30.

Ancestral and novel roles of Pax family genes in mollusks

Scherholz M, Redl E, Wollesen T, de Oliveira A, Todt C, Wanninger A

BMC Evol Biol . 2017 Mar; 17(1):81. PMID: 28302062

Background: Pax genes are transcription factors with significant roles in cell fate specification and tissue differentiation during animal ontogeny. Most information on their tempo-spatial mode of expression is available from...