Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution

The germinal epithelium, i.e., the site of germ cell production in males and females, has maintained a constant form and function throughout 500 million years of vertebrate evolution. The distinguishing characteristic of germinal epithelia among all vertebrates, males, and females, is the presence o...

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Detalles Bibliográficos
Publicado: 2016
Materias:
basement membrane
follicle complex
folliculogenesis
gametogenesis
gonads structure
Amphibia
animal
cytology
epithelium
evolution
female
fish
male
metabolism
ovary follicle
physiology
reptile
Sertoli cell
testis
time factor
vertebrate
Amphibians
Animals
Biological Evolution
Epithelium
Female
Fishes
Male
Ovarian Follicle
Reptiles
Sertoli Cells
Testis
Time Factors
Vertebrates
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10974687_v277_n8_p1014_Grier
http://hdl.handle.net/20.500.12110/paper_10974687_v277_n8_p1014_Grier
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_10974687_v277_n8_p1014_Grier
record_format dspace
spelling paper:paper_10974687_v277_n8_p1014_Grier2023-06-08T16:07:09Z Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution basement membrane follicle complex folliculogenesis gametogenesis gonads structure Amphibia animal cytology epithelium evolution female fish male metabolism ovary follicle physiology reptile Sertoli cell testis time factor vertebrate Amphibians Animals Biological Evolution Epithelium Female Fishes Male Ovarian Follicle Reptiles Sertoli Cells Testis Time Factors Vertebrates The germinal epithelium, i.e., the site of germ cell production in males and females, has maintained a constant form and function throughout 500 million years of vertebrate evolution. The distinguishing characteristic of germinal epithelia among all vertebrates, males, and females, is the presence of germ cells among somatic epithelial cells. The somatic epithelial cells, Sertoli cells in males or follicle (granulosa) cells in females, encompass and isolate germ cells. Morphology of all vertebrate germinal epithelia conforms to the standard definition of an epithelium: epithelial cells are interconnected, border a body surface or lumen, are avascular and are supported by a basement membrane. Variation in morphology of gonads, which develop from the germinal epithelium, is correlated with the evolution of reproductive modes. In hagfishes, lampreys, and elasmobranchs, the germinal epithelia of males produce spermatocysts. A major rearrangement of testis morphology diagnoses osteichthyans: the spermatocysts are arranged in tubules or lobules. In protogynous (female to male) sex reversal in teleost fishes, female germinal epithelial cells (prefollicle cells) and oogonia transform into the first male somatic cells (Sertoli cells) and spermatogonia in the developing testis lobules. This common origin of cell types from the germinal epithelium in fishes with protogynous sex reversal supports the homology of Sertoli cells and follicle cells. Spermatogenesis in amphibians develops within spermatocysts in testis lobules. In amniotes vertebrates, the testis is composed of seminiferous tubules wherein spermatogenesis occurs radially. Emerging research indicates that some mammals do not have lifetime determinate fecundity. The fact emerged that germinal epithelia occur in the gonads of all vertebrates examined herein of both sexes and has the same form and function across all vertebrate taxa. Continued study of the form and function of the germinal epithelium in vertebrates will increasingly clarify our understanding of vertebrate reproduction. J. Morphol. 277:1014-1044, 2016. © 2016 Wiley Periodicals, Inc. © 2016 Wiley Periodicals, Inc. 2016 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10974687_v277_n8_p1014_Grier http://hdl.handle.net/20.500.12110/paper_10974687_v277_n8_p1014_Grier
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic basement membrane
follicle complex
folliculogenesis
gametogenesis
gonads structure
Amphibia
animal
cytology
epithelium
evolution
female
fish
male
metabolism
ovary follicle
physiology
reptile
Sertoli cell
testis
time factor
vertebrate
Amphibians
Animals
Biological Evolution
Epithelium
Female
Fishes
Male
Ovarian Follicle
Reptiles
Sertoli Cells
Testis
Time Factors
Vertebrates
spellingShingle basement membrane
follicle complex
folliculogenesis
gametogenesis
gonads structure
Amphibia
animal
cytology
epithelium
evolution
female
fish
male
metabolism
ovary follicle
physiology
reptile
Sertoli cell
testis
time factor
vertebrate
Amphibians
Animals
Biological Evolution
Epithelium
Female
Fishes
Male
Ovarian Follicle
Reptiles
Sertoli Cells
Testis
Time Factors
Vertebrates
Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution
topic_facet basement membrane
follicle complex
folliculogenesis
gametogenesis
gonads structure
Amphibia
animal
cytology
epithelium
evolution
female
fish
male
metabolism
ovary follicle
physiology
reptile
Sertoli cell
testis
time factor
vertebrate
Amphibians
Animals
Biological Evolution
Epithelium
Female
Fishes
Male
Ovarian Follicle
Reptiles
Sertoli Cells
Testis
Time Factors
Vertebrates
description The germinal epithelium, i.e., the site of germ cell production in males and females, has maintained a constant form and function throughout 500 million years of vertebrate evolution. The distinguishing characteristic of germinal epithelia among all vertebrates, males, and females, is the presence of germ cells among somatic epithelial cells. The somatic epithelial cells, Sertoli cells in males or follicle (granulosa) cells in females, encompass and isolate germ cells. Morphology of all vertebrate germinal epithelia conforms to the standard definition of an epithelium: epithelial cells are interconnected, border a body surface or lumen, are avascular and are supported by a basement membrane. Variation in morphology of gonads, which develop from the germinal epithelium, is correlated with the evolution of reproductive modes. In hagfishes, lampreys, and elasmobranchs, the germinal epithelia of males produce spermatocysts. A major rearrangement of testis morphology diagnoses osteichthyans: the spermatocysts are arranged in tubules or lobules. In protogynous (female to male) sex reversal in teleost fishes, female germinal epithelial cells (prefollicle cells) and oogonia transform into the first male somatic cells (Sertoli cells) and spermatogonia in the developing testis lobules. This common origin of cell types from the germinal epithelium in fishes with protogynous sex reversal supports the homology of Sertoli cells and follicle cells. Spermatogenesis in amphibians develops within spermatocysts in testis lobules. In amniotes vertebrates, the testis is composed of seminiferous tubules wherein spermatogenesis occurs radially. Emerging research indicates that some mammals do not have lifetime determinate fecundity. The fact emerged that germinal epithelia occur in the gonads of all vertebrates examined herein of both sexes and has the same form and function across all vertebrate taxa. Continued study of the form and function of the germinal epithelium in vertebrates will increasingly clarify our understanding of vertebrate reproduction. J. Morphol. 277:1014-1044, 2016. © 2016 Wiley Periodicals, Inc. © 2016 Wiley Periodicals, Inc.
title Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution
title_short Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution
title_full Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution
title_fullStr Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution
title_full_unstemmed Conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution
title_sort conserved form and function of the germinal epithelium through 500 million years of vertebrate evolution
publishDate 2016
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10974687_v277_n8_p1014_Grier
http://hdl.handle.net/20.500.12110/paper_10974687_v277_n8_p1014_Grier
_version_ 1768542094272495616

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