Presentation is loading. Please wait.

Presentation is loading. Please wait.

Franck Pellestor, Ph. D. , Vincent Gatinois, Pharm. D

Published byVeronika Kurnia Modified over 6 years ago

Similar presentations

Presentation on theme: "Franck Pellestor, Ph. D. , Vincent Gatinois, Pharm. D"— Presentation transcript:

1 Chromothripsis: potential origin in gametogenesis and preimplantation cell divisions. A review 
Franck Pellestor, Ph.D., Vincent Gatinois, Pharm.D., Jacques Puechberty, M.D., David Geneviève, M.D., Geneviève Lefort, M.D.  Fertility and Sterility  Volume 102, Issue 6, Pages (December 2014) DOI: /j.fertnstert Copyright © 2014 American Society for Reproductive Medicine Terms and Conditions

2 Figure 1 Principle of the chromothripsis process. During a one-step catastrophic event, multiple double-strand breaks occur, restricted to a simple chromosomal segment or to a few closed chromosome domains, leading to the pulverization of chromosomal fragments. Most of them are stitched back together, resulting in chaotic derivative chromosome(s), but some are lost or combined in small circular extra-chromosomes (double-minute chromosomes), usually harboring oncogenes. Fertility and Sterility  , DOI: ( /j.fertnstert ) Copyright © 2014 American Society for Reproductive Medicine Terms and Conditions

3 Figure 2 Chromothripsis and micronuclei in gametogenesis. There are several pathways by which a micronucleus can be generated during mitotic division in gametic germ cells, involving abortive apoptosis, mitotic errors, merotelic kinetochore attachment, or telomere erosion and end-to-end fusion. The generated micronucleus can undergo asynchronous DNA replication or chromosome pulverization and chaotic repair, leading to the formation of highly complex derivative chromosome(s). During subsequent cell divisions, the rearranged chromosomes trapped in the micronucleus can be reintegrated into the main nucleus of one of the daughter cells. Fertility and Sterility  , DOI: ( /j.fertnstert ) Copyright © 2014 American Society for Reproductive Medicine Terms and Conditions

4 Figure 3 Chromothripsis in preimplantation embryo via micronucleus. Both aneuploidy fertilization and premature chromosome condensation in the male pronucleus can lead to the formation of an embryonic micronucleus sequestrating extra or pulverized chromosome(s) during the first embryonic division. In the micronucleus, the chromosomal materials undergo defective replication and/or chaotic reorganization. The micronucleus can be incorporated into extracellular fragments, often detected in vitro at the two-cell stage in preimplantation embryos, and then be reincorporated later into the blastomere from which it originated or a neighboring blastomere. Thus, the rearranged chromosome(s) can be subsequently reintegrated into the main nucleus of one blastomere and thereafter maintained with chromothripsis-related rearrangements. Fertility and Sterility  , DOI: ( /j.fertnstert ) Copyright © 2014 American Society for Reproductive Medicine Terms and Conditions

Download ppt "Franck Pellestor, Ph. D. , Vincent Gatinois, Pharm. D"

Similar presentations

Pere Colls, Ph. D. , Tomas Escudero, M. Sc. , Natalie Cekleniak, M. D

Pere Colls, Ph. D. , Tomas Escudero, M. Sc. , Natalie Cekleniak, M. D
Susannah Baruch, J.D., David Kaufman, Ph.D., Kathy L. Hudson, Ph.D. 

Susannah Baruch, J.D., David Kaufman, Ph.D., Kathy L. Hudson, Ph.D. 
Multiple gestation associated with infertility therapy: an American Society for Reproductive Medicine Practice Committee opinion    Fertility and Sterility 

Multiple gestation associated with infertility therapy: an American Society for Reproductive Medicine Practice Committee opinion    Fertility and Sterility 
Elias M. Dahdouh, M. D. , M. Sc. , Jacques Balayla, M. D

Elias M. Dahdouh, M. D. , M. Sc. , Jacques Balayla, M. D
Demián Glujovsky, M.D., M.Sc., Cynthia Farquhar, M.D., M.P.H. 

Demián Glujovsky, M.D., M.Sc., Cynthia Farquhar, M.D., M.P.H. 
Validation of microarray comparative genomic hybridization for comprehensive chromosome analysis of embryos  Cristina Gutiérrez-Mateo, Ph.D., Pere Colls,

Validation of microarray comparative genomic hybridization for comprehensive chromosome analysis of embryos  Cristina Gutiérrez-Mateo, Ph.D., Pere Colls,
A giant oocyte in a cohort of retrieved oocytes: does it have any effect on the in vitro fertilization cycle outcome?  Ronit Machtinger, M.D., Joseph.

A giant oocyte in a cohort of retrieved oocytes: does it have any effect on the in vitro fertilization cycle outcome?  Ronit Machtinger, M.D., Joseph.
Gene expression analysis of a new source of human oocytes and embryos for research and human embryonic stem cell derivation  Sharon F. Sneddon, Ph.D.,

Gene expression analysis of a new source of human oocytes and embryos for research and human embryonic stem cell derivation  Sharon F. Sneddon, Ph.D.,
Susannah Baruch, J.D., David Kaufman, Ph.D., Kathy L. Hudson, Ph.D. 

Susannah Baruch, J.D., David Kaufman, Ph.D., Kathy L. Hudson, Ph.D. 
Fernando Zegers-Hochschild, M.D.  Fertility and Sterility 

Fernando Zegers-Hochschild, M.D.  Fertility and Sterility 
Michael M. Alper, M.D.  Fertility and Sterility 

Michael M. Alper, M.D.  Fertility and Sterility 
Composition of single-step media used for human embryo culture

Composition of single-step media used for human embryo culture
Denny Sakkas, Ph.D., Juan G. Alvarez, M.D., Ph.D. 

Denny Sakkas, Ph.D., Juan G. Alvarez, M.D., Ph.D. 
The likelihood of live birth and multiple birth after single versus double embryo transfer at the cleavage stage: a systematic review and meta-analysis 

The likelihood of live birth and multiple birth after single versus double embryo transfer at the cleavage stage: a systematic review and meta-analysis 
Marcos Meseguer, Ph. D. , Rebeca Santiso, Ph. D. , Nicolás Garrido, Ph

Marcos Meseguer, Ph. D. , Rebeca Santiso, Ph. D. , Nicolás Garrido, Ph
Technology requirements for preimplantation genetic diagnosis to improve assisted reproduction outcomes  Santiago Munné, Ph.D., Dagan Wells, Ph.D., Jacques.

Technology requirements for preimplantation genetic diagnosis to improve assisted reproduction outcomes  Santiago Munné, Ph.D., Dagan Wells, Ph.D., Jacques.
Hee-Jun Chi, Ph. D. , Jung-Jin Koo, M. D. , Soon-Young Choi, M. Sc

Hee-Jun Chi, Ph. D. , Jung-Jin Koo, M. D. , Soon-Young Choi, M. Sc
Can an educational DVD improve the acceptability of elective single embryo transfer? A randomized controlled study  Nicole Hope, M.B., B.S., Hon., Luk.

Can an educational DVD improve the acceptability of elective single embryo transfer? A randomized controlled study  Nicole Hope, M.B., B.S., Hon., Luk.
Preimplantation genetic testing: polar bodies, blastomeres, trophectoderm cells, or blastocoelic fluid?  M. Cristina Magli, M.Sc., Alessandra Pomante,

Preimplantation genetic testing: polar bodies, blastomeres, trophectoderm cells, or blastocoelic fluid?  M. Cristina Magli, M.Sc., Alessandra Pomante,
The relative contribution of assisted reproductive technologies and ovulation induction to multiple births in the United States 5 years after the Society.

The relative contribution of assisted reproductive technologies and ovulation induction to multiple births in the United States 5 years after the Society.

Similar presentations

Ads by Google