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Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms

Species retaining ancestral features, such as species called living fossils, are often regarded as less derived than their sister groups, but such discussions are usually based on qualitative enumeration of conserved traits. This approach creates a major barrier, especially when quantifying the degr...

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Autores principales: Leong, Jason Cheok Kuan, Li, Yongxin, Uesaka, Masahiro, Uchida, Yui, Omori, Akihito, Hao, Meng, Wan, Wenting, Dong, Yang, Ren, Yandong, Zhang, Si, Zeng, Tao, Wang, Fayou, Chen, Luonan, Wessel, Gary, Livingston, Brian T., Bradham, Cynthia, Wang, Wen, Irie, Naoki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8661034/
https://www.ncbi.nlm.nih.gov/pubmed/34900995
http://dx.doi.org/10.3389/fcell.2021.749963
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author Leong, Jason Cheok Kuan
Li, Yongxin
Uesaka, Masahiro
Uchida, Yui
Omori, Akihito
Hao, Meng
Wan, Wenting
Dong, Yang
Ren, Yandong
Zhang, Si
Zeng, Tao
Wang, Fayou
Chen, Luonan
Wessel, Gary
Livingston, Brian T.
Bradham, Cynthia
Wang, Wen
Irie, Naoki
author_facet Leong, Jason Cheok Kuan
Li, Yongxin
Uesaka, Masahiro
Uchida, Yui
Omori, Akihito
Hao, Meng
Wan, Wenting
Dong, Yang
Ren, Yandong
Zhang, Si
Zeng, Tao
Wang, Fayou
Chen, Luonan
Wessel, Gary
Livingston, Brian T.
Bradham, Cynthia
Wang, Wen
Irie, Naoki
author_sort Leong, Jason Cheok Kuan
collection PubMed
description Species retaining ancestral features, such as species called living fossils, are often regarded as less derived than their sister groups, but such discussions are usually based on qualitative enumeration of conserved traits. This approach creates a major barrier, especially when quantifying the degree of phenotypic evolution or degree of derivedness, since it focuses only on commonly shared traits, and newly acquired or lost traits are often overlooked. To provide a potential solution to this problem, especially for inter-species comparison of gene expression profiles, we propose a new method named “derivedness index” to quantify the degree of derivedness. In contrast to the conservation-based approach, which deals with expressions of commonly shared genes among species being compared, the derivedness index also considers those that were potentially lost or duplicated during evolution. By applying our method, we found that the gene expression profiles of penta-radial phases in echinoderm tended to be more highly derived than those of the bilateral phase. However, our results suggest that echinoderms may not have experienced much larger modifications to their developmental systems than chordates, at least at the transcriptomic level. In vertebrates, we found that the mid-embryonic and organogenesis stages were generally less derived than the earlier or later stages, indicating that the conserved phylotypic period is also less derived. We also found genes that potentially explain less derivedness, such as Hox genes. Finally, we highlight technical concerns that may influence the measured transcriptomic derivedness, such as read depth and library preparation protocols, for further improvement of our method through future studies. We anticipate that this index will serve as a quantitative guide in the search for constrained developmental phases or processes.
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spelling pubmed-86610342021-12-11 Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms Leong, Jason Cheok Kuan Li, Yongxin Uesaka, Masahiro Uchida, Yui Omori, Akihito Hao, Meng Wan, Wenting Dong, Yang Ren, Yandong Zhang, Si Zeng, Tao Wang, Fayou Chen, Luonan Wessel, Gary Livingston, Brian T. Bradham, Cynthia Wang, Wen Irie, Naoki Front Cell Dev Biol Cell and Developmental Biology Species retaining ancestral features, such as species called living fossils, are often regarded as less derived than their sister groups, but such discussions are usually based on qualitative enumeration of conserved traits. This approach creates a major barrier, especially when quantifying the degree of phenotypic evolution or degree of derivedness, since it focuses only on commonly shared traits, and newly acquired or lost traits are often overlooked. To provide a potential solution to this problem, especially for inter-species comparison of gene expression profiles, we propose a new method named “derivedness index” to quantify the degree of derivedness. In contrast to the conservation-based approach, which deals with expressions of commonly shared genes among species being compared, the derivedness index also considers those that were potentially lost or duplicated during evolution. By applying our method, we found that the gene expression profiles of penta-radial phases in echinoderm tended to be more highly derived than those of the bilateral phase. However, our results suggest that echinoderms may not have experienced much larger modifications to their developmental systems than chordates, at least at the transcriptomic level. In vertebrates, we found that the mid-embryonic and organogenesis stages were generally less derived than the earlier or later stages, indicating that the conserved phylotypic period is also less derived. We also found genes that potentially explain less derivedness, such as Hox genes. Finally, we highlight technical concerns that may influence the measured transcriptomic derivedness, such as read depth and library preparation protocols, for further improvement of our method through future studies. We anticipate that this index will serve as a quantitative guide in the search for constrained developmental phases or processes. Frontiers Media S.A. 2021-11-26 /pmc/articles/PMC8661034/ /pubmed/34900995 http://dx.doi.org/10.3389/fcell.2021.749963 Text en Copyright © 2021 Leong, Li, Uesaka, Uchida, Omori, Hao, Wan, Dong, Ren, Zhang, Zeng, Wang, Chen, Wessel, Livingston, Bradham, Wang and Irie. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Cell and Developmental Biology
Leong, Jason Cheok Kuan
Li, Yongxin
Uesaka, Masahiro
Uchida, Yui
Omori, Akihito
Hao, Meng
Wan, Wenting
Dong, Yang
Ren, Yandong
Zhang, Si
Zeng, Tao
Wang, Fayou
Chen, Luonan
Wessel, Gary
Livingston, Brian T.
Bradham, Cynthia
Wang, Wen
Irie, Naoki
Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms
title Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms
title_full Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms
title_fullStr Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms
title_full_unstemmed Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms
title_short Derivedness Index for Estimating Degree of Phenotypic Evolution of Embryos: A Study of Comparative Transcriptomic Analyses of Chordates and Echinoderms
title_sort derivedness index for estimating degree of phenotypic evolution of embryos: a study of comparative transcriptomic analyses of chordates and echinoderms
topic Cell and Developmental Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8661034/
https://www.ncbi.nlm.nih.gov/pubmed/34900995
http://dx.doi.org/10.3389/fcell.2021.749963
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