Parallel duplication and loss of aquaporin‐coding genes during the “out of the sea” transition as potential key drivers of animal terrestrialization
GI Martínez‐Redondo, C Simón Guerrero… - Molecular …, 2023 - Wiley Online Library
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
Parallel duplication and loss of aquaporin-coding genes during the “out of the sea” transition as potential key drivers of animal terrestrialization
GI Martínez Redondo, C Simón Guerrero… - 2023 - datosdeinvestigacion.conicet.gov.ar
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
Parallel duplication and loss of aquaporin-coding genes during the “out of the sea” transition as potential key drivers of animal terrestrialization
GI Martínez-Redondo, C Simón Guerrero, L Aristide… - sidalc.net
© 2023 The Authors. Molecular Ecology published by John Wiley & Sons Ltd. This is an
open access article under the terms of the Creative Commons Attribution-NonCommercial …
open access article under the terms of the Creative Commons Attribution-NonCommercial …
Parallel duplication and loss of aquaporin‐coding genes during the" out of the sea" transition as potential key drivers of animal terrestrialization.
GI Martínez‐Redondo, C Simón Guerrero… - Molecular …, 2023 - search.ebscohost.com
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
Parallel duplication and loss of aquaporin‐coding genes during the “out of the sea” transition as potential key drivers of animal terrestrialization
GI Martínez‐Redondo, CS Guerrero, L Aristide… - Molecular …, 2023 - infona.pl
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
Parallel duplication and loss of aquaporin-coding genes during the “out of the sea” transition as potential key drivers of animal terrestrialization
GI Martínez Redondo, C Simón Guerrero, L Arístide… - 2023 - ri.conicet.gov.ar
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
Parallel duplication and loss of aquaporin-coding genes during the" out of the sea" transition as potential key drivers of animal terrestrialization
GI Martínez-Redondo, CS Guerrero… - Molecular …, 2023 - pubmed.ncbi.nlm.nih.gov
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
[HTML][HTML] Parallel duplication and loss of aquaporin-coding genes during the 'out of the sea'transition as potential key drivers of animal terrestrialization
GI Martínez-Redondo, CS Guerrero, L Aristide… - 2022 - europepmc.org
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) is water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) is water loss, which alters their osmotic …
Parallel duplication and loss of aquaporin-coding genes during the “out of the sea” transition as potential key drivers of animal terrestrialization
GI Martínez-Redondo, C Simón Guerrero, L Aristide… - 2023 - digital.csic.es
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
Parallel duplication and loss of aquaporin‑coding genes during the" out of the sea" transition as potential key drivers of animal terrestrialization
GI Martínez-Redondo, C Simón Guerrero… - Molecular …, 2023 - ui.adsabs.harvard.edu
One of the most important physiological challenges animals had to overcome during
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …
terrestrialization (ie, the transition from sea to land) was water loss, which alters their osmotic …