RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse. / Condezo, Yazmine B; Sainz-Urruela, Raquel; Gomez-H, Laura; Salas-Lloret, Daniel; Felipe-Medina, Natalia; Bradley, Rachel; Wolff, Ian D; Tanis, Stephanie; Barbero, Jose Luis; Sánchez-Martín, Manuel; de Rooij, Dirk; Hendriks, Ivo A; Nielsen, Michael L; Gonzalez-Prieto, Román; Cohen, Paula E; Pendas, Alberto M; Llano, Elena.

In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 121, No. 25, 18.06.2024, p. e2320995121.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Condezo, YB, Sainz-Urruela, R, Gomez-H, L, Salas-Lloret, D, Felipe-Medina, N, Bradley, R, Wolff, ID, Tanis, S, Barbero, JL, Sánchez-Martín, M, de Rooij, D, Hendriks, IA, Nielsen, ML, Gonzalez-Prieto, R, Cohen, PE, Pendas, AM & Llano, E 2024, 'RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse', Proceedings of the National Academy of Sciences of the United States of America, vol. 121, no. 25, pp. e2320995121. https://doi.org/10.1073/pnas.2320995121

APA

Condezo, Y. B., Sainz-Urruela, R., Gomez-H, L., Salas-Lloret, D., Felipe-Medina, N., Bradley, R., Wolff, I. D., Tanis, S., Barbero, J. L., Sánchez-Martín, M., de Rooij, D., Hendriks, I. A., Nielsen, M. L., Gonzalez-Prieto, R., Cohen, P. E., Pendas, A. M., & Llano, E. (2024). RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse. Proceedings of the National Academy of Sciences of the United States of America, 121(25), e2320995121. https://doi.org/10.1073/pnas.2320995121

Vancouver

Condezo YB, Sainz-Urruela R, Gomez-H L, Salas-Lloret D, Felipe-Medina N, Bradley R et al. RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse. Proceedings of the National Academy of Sciences of the United States of America. 2024 Jun 18;121(25):e2320995121. https://doi.org/10.1073/pnas.2320995121

Author

Condezo, Yazmine B ; Sainz-Urruela, Raquel ; Gomez-H, Laura ; Salas-Lloret, Daniel ; Felipe-Medina, Natalia ; Bradley, Rachel ; Wolff, Ian D ; Tanis, Stephanie ; Barbero, Jose Luis ; Sánchez-Martín, Manuel ; de Rooij, Dirk ; Hendriks, Ivo A ; Nielsen, Michael L ; Gonzalez-Prieto, Román ; Cohen, Paula E ; Pendas, Alberto M ; Llano, Elena. / RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse. In: Proceedings of the National Academy of Sciences of the United States of America. 2024 ; Vol. 121, No. 25. pp. e2320995121.

Bibtex

@article{7414fb80203f479681e530bda9778ecc,
title = "RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse",
abstract = "Meiosis, a reductional cell division, relies on precise initiation, maturation, and resolution of crossovers (COs) during prophase I to ensure the accurate segregation of homologous chromosomes during metaphase I. This process is regulated by the interplay of RING-E3 ligases such as RNF212 and HEI10 in mammals. In this study, we functionally characterized a recently identified RING-E3 ligase, RNF212B. RNF212B colocalizes and interacts with RNF212, forming foci along chromosomes from zygonema onward in a synapsis-dependent and DSB-independent manner. These consolidate into larger foci at maturing COs, colocalizing with HEI10, CNTD1, and MLH1 by late pachynema. Genetically, RNF212B foci formation depends on Rnf212 but not on Msh4, Hei10, and Cntd1, while the unloading of RNF212B at the end of pachynema is dependent on Hei10 and Cntd1. Mice lacking RNF212B, or expressing an inactive RNF212B protein, exhibit modest synapsis defects, a reduction in the localization of pro-CO factors (MSH4, TEX11, RPA, MZIP2) and absence of late CO-intermediates (MLH1). This loss of most COs by diakinesis results in mostly univalent chromosomes. Double mutants for Rnf212b and Rnf212 exhibit an identical phenotype to that of Rnf212b single mutants, while double heterozygous demonstrate a dosage-dependent reduction in CO number, indicating a functional interplay between paralogs. SUMOylome analysis of testes from Rnf212b mutants and pull-down analysis of Sumo- and Ubiquitin-tagged HeLa cells, suggest that RNF212B is an E3-ligase with Ubiquitin activity, serving as a crucial factor for CO maturation. Thus, RNF212 and RNF212B play vital, yet overlapping roles, in ensuring CO homeostasis through their distinct E3 ligase activities.",
keywords = "Animals, Mice, Meiosis, Male, Female, Ubiquitin-Protein Ligases/metabolism, Crossing Over, Genetic, Chromosome Pairing, Poly-ADP-Ribose Binding Proteins/metabolism, Mice, Knockout, Humans, Ligases",
author = "Condezo, {Yazmine B} and Raquel Sainz-Urruela and Laura Gomez-H and Daniel Salas-Lloret and Natalia Felipe-Medina and Rachel Bradley and Wolff, {Ian D} and Stephanie Tanis and Barbero, {Jose Luis} and Manuel S{\'a}nchez-Mart{\'i}n and {de Rooij}, Dirk and Hendriks, {Ivo A} and Nielsen, {Michael L} and Rom{\'a}n Gonzalez-Prieto and Cohen, {Paula E} and Pendas, {Alberto M} and Elena Llano",
year = "2024",
month = jun,
day = "18",
doi = "10.1073/pnas.2320995121",
language = "English",
volume = "121",
pages = "e2320995121",
journal = "Proceedings of the National Academy of Sciences of the United States of America",
issn = "0027-8424",
publisher = "The National Academy of Sciences of the United States of America",
number = "25",

}

RIS

TY - JOUR

T1 - RNF212B E3 ligase is essential for crossover designation and maturation during male and female meiosis in the mouse

AU - Condezo, Yazmine B

AU - Sainz-Urruela, Raquel

AU - Gomez-H, Laura

AU - Salas-Lloret, Daniel

AU - Felipe-Medina, Natalia

AU - Bradley, Rachel

AU - Wolff, Ian D

AU - Tanis, Stephanie

AU - Barbero, Jose Luis

AU - Sánchez-Martín, Manuel

AU - de Rooij, Dirk

AU - Hendriks, Ivo A

AU - Nielsen, Michael L

AU - Gonzalez-Prieto, Román

AU - Cohen, Paula E

AU - Pendas, Alberto M

AU - Llano, Elena

PY - 2024/6/18

Y1 - 2024/6/18

N2 - Meiosis, a reductional cell division, relies on precise initiation, maturation, and resolution of crossovers (COs) during prophase I to ensure the accurate segregation of homologous chromosomes during metaphase I. This process is regulated by the interplay of RING-E3 ligases such as RNF212 and HEI10 in mammals. In this study, we functionally characterized a recently identified RING-E3 ligase, RNF212B. RNF212B colocalizes and interacts with RNF212, forming foci along chromosomes from zygonema onward in a synapsis-dependent and DSB-independent manner. These consolidate into larger foci at maturing COs, colocalizing with HEI10, CNTD1, and MLH1 by late pachynema. Genetically, RNF212B foci formation depends on Rnf212 but not on Msh4, Hei10, and Cntd1, while the unloading of RNF212B at the end of pachynema is dependent on Hei10 and Cntd1. Mice lacking RNF212B, or expressing an inactive RNF212B protein, exhibit modest synapsis defects, a reduction in the localization of pro-CO factors (MSH4, TEX11, RPA, MZIP2) and absence of late CO-intermediates (MLH1). This loss of most COs by diakinesis results in mostly univalent chromosomes. Double mutants for Rnf212b and Rnf212 exhibit an identical phenotype to that of Rnf212b single mutants, while double heterozygous demonstrate a dosage-dependent reduction in CO number, indicating a functional interplay between paralogs. SUMOylome analysis of testes from Rnf212b mutants and pull-down analysis of Sumo- and Ubiquitin-tagged HeLa cells, suggest that RNF212B is an E3-ligase with Ubiquitin activity, serving as a crucial factor for CO maturation. Thus, RNF212 and RNF212B play vital, yet overlapping roles, in ensuring CO homeostasis through their distinct E3 ligase activities.

AB - Meiosis, a reductional cell division, relies on precise initiation, maturation, and resolution of crossovers (COs) during prophase I to ensure the accurate segregation of homologous chromosomes during metaphase I. This process is regulated by the interplay of RING-E3 ligases such as RNF212 and HEI10 in mammals. In this study, we functionally characterized a recently identified RING-E3 ligase, RNF212B. RNF212B colocalizes and interacts with RNF212, forming foci along chromosomes from zygonema onward in a synapsis-dependent and DSB-independent manner. These consolidate into larger foci at maturing COs, colocalizing with HEI10, CNTD1, and MLH1 by late pachynema. Genetically, RNF212B foci formation depends on Rnf212 but not on Msh4, Hei10, and Cntd1, while the unloading of RNF212B at the end of pachynema is dependent on Hei10 and Cntd1. Mice lacking RNF212B, or expressing an inactive RNF212B protein, exhibit modest synapsis defects, a reduction in the localization of pro-CO factors (MSH4, TEX11, RPA, MZIP2) and absence of late CO-intermediates (MLH1). This loss of most COs by diakinesis results in mostly univalent chromosomes. Double mutants for Rnf212b and Rnf212 exhibit an identical phenotype to that of Rnf212b single mutants, while double heterozygous demonstrate a dosage-dependent reduction in CO number, indicating a functional interplay between paralogs. SUMOylome analysis of testes from Rnf212b mutants and pull-down analysis of Sumo- and Ubiquitin-tagged HeLa cells, suggest that RNF212B is an E3-ligase with Ubiquitin activity, serving as a crucial factor for CO maturation. Thus, RNF212 and RNF212B play vital, yet overlapping roles, in ensuring CO homeostasis through their distinct E3 ligase activities.

KW - Animals

KW - Mice

KW - Meiosis

KW - Male

KW - Female

KW - Ubiquitin-Protein Ligases/metabolism

KW - Crossing Over, Genetic

KW - Chromosome Pairing

KW - Poly-ADP-Ribose Binding Proteins/metabolism

KW - Mice, Knockout

KW - Humans

KW - Ligases

U2 - 10.1073/pnas.2320995121

DO - 10.1073/pnas.2320995121

M3 - Journal article

C2 - 38865271

VL - 121

SP - e2320995121

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

SN - 0027-8424

IS - 25

ER -

ID: 397723619