Patrick Tschopp

Overview

Explore the profile of Patrick Tschopp including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 28

Citations 580

Followers 0

Related Specialties

Science

Biology

Genetics

Top 10 Co-Authors

Denis Duboule

Christian Feregrino

Fabio Sacher

Clifford J Tabin

Maeva Luxey

Jozsef Zakany

Sabrina Fischer

Antoine Fages

Bianka Berki

Anna C Groner

Published In

Proc Natl Acad Sci U S A

Dev Dyn

PLoS Genet

Dev Cell

Dev Biol

Affiliations

Soon will be listed here.

Recent Articles

Distinct gene regulatory dynamics drive skeletogenic cell fate convergence during vertebrate embryogenesis

Wang M, Di Pietro-Torres A, Feregrino C, Luxey M, Moreau C, Fischer S, et al.

Nat Commun . 2025 Mar; 16(1):2187. PMID: 40038298

Cell type repertoires have expanded extensively in metazoan animals, with some clade-specific cells being crucial to evolutionary success. A prime example are the skeletogenic cells of vertebrates. Depending on anatomical...

The genetics of niche-specific behavioral tendencies in an adaptive radiation of cichlid fishes

Sommer-Trembo C, Santos M, Clark B, Werner M, Fages A, Matschiner M, et al.

Science . 2024 Apr; 384(6694):470-475. PMID: 38662824

Behavior is critical for animal survival and reproduction, and possibly for diversification and evolutionary radiation. However, the genetics behind adaptive variation in behavior are poorly understood. In this work, we...

Direct reprogramming of non-limb fibroblasts to cells with properties of limb progenitors

Atsuta Y, Lee C, Rodrigues A, Colle C, Tomizawa R, Lujan E, et al.

Dev Cell . 2024 Feb; 59(3):415-430.e8. PMID: 38320485

The early limb bud consists of mesenchymal limb progenitors derived from the lateral plate mesoderm (LPM). The LPM also gives rise to the mesodermal components of the flank and neck....

Self-organized BMP signaling dynamics underlie the development and evolution of digit segmentation patterns in birds and mammals

Grall E, Feregrino C, Fischer S, De Courten A, Sacher F, Hiscock T, et al.

Proc Natl Acad Sci U S A . 2024 Jan; 121(2):e2304470121. PMID: 38175868

Repeating patterns of synovial joints are a highly conserved feature of articulated digits, with variations in joint number and location resulting in diverse digit morphologies and limb functions across the...

Distinct patterning responses of wing and leg neuromuscular systems to different preaxial polydactylies

Luxey M, Stieger G, Berki B, Tschopp P

Front Cell Dev Biol . 2023 May; 11:1154205. PMID: 37215090

The tetrapod limb has long served as a paradigm to study vertebrate pattern formation and evolutionary diversification. The distal part of the limb, the so-called autopod, is of particular interest...

A method to investigate muscle target-specific transcriptional signatures of single motor neurons

Berki B, Sacher F, Fages A, Tschopp P, Luxey M

Dev Dyn . 2022 Jun; 252(1):208-219. PMID: 35705847

Background: Motor neurons in the vertebrate spinal cord have long served as a paradigm to study the transcriptional logic of cell type specification and differentiation. At limb levels, pool-specific transcriptional...

Extracellular matrix gene expression signatures as cell type and cell state identifiers

Sacher F, Feregrino C, Tschopp P, Ewald C

Matrix Biol Plus . 2021 Jul; 10:100069. PMID: 34195598

Transcriptomic signatures based on cellular mRNA expression profiles can be used to categorize cell types and states. Yet whether different functional groups of genes perform better or worse in this...

Assessing evolutionary and developmental transcriptome dynamics in homologous cell types

Feregrino C, Tschopp P

Dev Dyn . 2021 Jun; 251(9):1472-1489. PMID: 34114716

Background: During development, complex organ patterns emerge through the precise temporal and spatial specification of different cell types. On an evolutionary timescale, these patterns can change, resulting in morphological diversification....

A sense of place, many times over - pattern formation and evolution of repetitive morphological structures

Grall E, Tschopp P

Dev Dyn . 2019 Nov; 249(3):313-327. PMID: 31702845

Fifty years ago, Lewis Wolpert introduced the concept of "positional information" to explain how patterns form in a multicellular embryonic field. Using morphogen gradients, whose continuous distributions of positional values...

10.

Development of the chick wing and leg neuromuscular systems and their plasticity in response to changes in digit numbers

Luxey M, Berki B, Heusermann W, Fischer S, Tschopp P

Dev Biol . 2019 Nov; 458(2):133-140. PMID: 31697937

The tetrapod limb has long served as a paradigm to study vertebrate pattern formation. During limb morphogenesis, a number of distinct tissue types are patterned and subsequently must be integrated...