This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Therman E, Susman B, Denniston C. The nonrandom participation of human acrocentric chromosomes in Robertsonian translocations. Ann Hum Genet. 1989; 53(1): 49-65.ThermanESusmanBDennistonC.The nonrandom participation of human acrocentric chromosomes in Robertsonian translocationsAnn Hum Genet.19895314965Search in Google Scholar
Luciani JM, Guichaoua MR, Mattei A, Morazzani MR. Pachytene analysis of a man with a 13q;14q translocation and infertility. Cytogenet Cel Genet. 1984; 38(1): 14-22.LucianiJMGuichaouaMRMatteiAMorazzaniMR.Pachytene analysis of a man with a 13q;14q translocation and infertilityCytogenet Cel Genet.19843811422Search in Google Scholar
Cassuto NG, Le Foll N, Chantot-Bastaraud S, Balet R, Bouret D, Rouen A, et al. Sperm fluorescence in situ hybridization study in nine men carrying a Robertsonian or a reciprocal translocation: Relationship between segregation modes and high-magnification sperm morphology examination. Fertil Steril. 2011; 96(4): 826-832.CassutoNGLe FollNChantot-BastaraudSBaletRBouretDRouenASperm fluorescence in situ hybridization study in nine men carrying a Robertsonian or a reciprocal translocation: Relationship between segregation modes and high-magnification sperm morphology examinationFertil Steril.2011964826832Search in Google Scholar
Sybenga J. Chromosome structural variants. In: Sybenga J, Ed. General Cytogenetics. Amsterdam, The Netherlands: North-Holland Publishing Company 1975: 165-212.SybengaJ.Chromosome structural variantsSyb***engaJGeneral CytogeneticsAmsterdam, The NetherlandsNorth-Holland Publishing Company1975165212Search in Google Scholar
Roux C, Tripogney C, Morel F, Joanne C, Fellmann F, Clavequin MC, et al. Segregation of chromosomes in sperm of Robertsonian translocation carriers. Cytogenet Genome Res. 2005; 111(3-4): 291-296.RouxCTripogneyCMorelFJoanneCFellmannFClavequinMCSegregation of chromosomes in sperm of Robertsonian translocation carriersCytogenet Genome Res.20051113-4291296Search in Google Scholar
Rives N, Ravel C, Duchesne V, Siffroi JP, Mousset-Simeon N, Mace B. Molecular cytogenetics analysis with whole chromosome paint probes of sperm nuclei from a (13;15) Robertsonian translocation carrier. J Hum Genet. 2005; 50(7): 360-364.RivesNRavelCDuchesneVSiffroiJPMousset-SimeonNMaceB.Molecular cytogenetics analysis with whole chromosome paint probes of sperm nuclei from a (13;15) Robertsonian translocation carrierJ Hum Genet.2005507360364Search in Google Scholar
Anahory T, Hamamah S, Andreo B, Hedon B, Claustres M, Sarda P, et al. Sperm segregation analysis of a (13;22) Robertsonian translocation carrier by FISH: A comparison of locus-specific probe and whole chromosome painting. Hum Reprod. 2005; 20(7): 1850-1854.AnahoryTHamamahSAndreoBHedonBClaustresMSardaPSperm segregation analysis of a (13;22) Robertsonian translocation carrier by FISH: A comparison of locus-specific probe and whole chromosome paintingHum Reprod.200520718501854Search in Google Scholar
Moradkhani K, Puechberty J, Bhatt S, Vago P, Janny L, Lefort G, et al. Meiotic segregation of rare Rob-ertsonian translocations: Sperm analysis of three t(14q; 22q) cases. Hum Reprod. 2006; 21(5): 1166-1171.MoradkhaniKPuechbertyJBhattSVagoPJannyLLefortGMeiotic segregation of rare Rob-ertsonian translocations: Sperm analysis of three t(14q; 22q) casesHum Reprod.200621511661171Search in Google Scholar
Anton E, Vidal F, Blanco J. Role of sperm FISH studies in the genetic reproductive advice of structural reorganization carriers. Hum Reprod. 2007; 22(8): 2088-2092.AntonEVidalFBlancoJ.Role of sperm FISH studies in the genetic reproductive advice of structural reorganization carriersHum Reprod.200722820882092Search in Google Scholar
Liu Y, Zhu H. Detection of sperm chromosomes in Robertsonian translocation carriers by dual-color fluorescence in situ hybridization. Zhonghua Nan Ke Xue. 2004; 10(2): 90-93.LiuYZhuH.Detection of sperm chromosomes in Robertsonian translocation carriers by dual-color fluorescence in situ hybridizationZhonghua Nan Ke Xue.20041029093Search in Google Scholar
Lejeune J. Autosomal disorders. Pediatrics. 1963; 32(3): 326-337.LejeuneJ.Autosomal disordersPediatrics.1963323326337Search in Google Scholar
Douet-Guilbert N, Bris MJ, Amice V, Marchetti C, Delobel B, Amice J, et al. Interchromosomal effect in sperm of males with translocations: Report of 6 cases and review of the literature. Int J Androl. 2005; 28(6): 372-379.Douet-GuilbertNBrisMJAmiceVMarchettiCDelobelBAmiceJInterchromosomal effect in sperm of males with translocations: Report of 6 cases and review of the literatureInt J Androl.2005286372379Search in Google Scholar
Ogur G, Van Assche E, Vegetti W, Verheyen G, Tournaye H, Bonduelle M, et al. Chromosomal segregation in spermatozoa of 14 Robertsonian translocation carriers. Mol Hum Reprod. 2006; 12(3): 209-215.OgurGVan AsscheEVegettiWVerheyenGTournayeHBonduelleMChromosomal segregation in spermatozoa of 14 Robertsonian translocation carriersMol Hum Reprod.2006123209215Search in Google Scholar
Estop AM, Cieply K, Munne S, Surti U, Wakim A, Feingold E. Is there an interchromosomal effect in reciprocal translocation carriers? Sperm FISH studies. Hum Genet. 2000; 106(5): 517-524.EstopAMCieplyKMunneSSurtiUWakimAFeingoldE.Is there an interchromosomal effect in reciprocal translocation carriers? Sperm FISH studiesHum Genet.20001065517524Search in Google Scholar
Acar H, Yildirim MS, Cora T, Ceylaner S. Evaluation of segregation patterns of 21;21 Robertsonian translocation along with sex chromosomes and interchromosomal effects in sperm nuclei of carrier by FISH technique. Mol Reprod Dev. 2002; 63(2): 232-236.AcarHYildirimMSCoraTCeylanerS.Evaluation of segregation patterns of 21;21 Robertsonian translocation along with sex chromosomes and interchromosomal effects in sperm nuclei of carrier by FISH techniqueMol Reprod Dev.2002632232236Search in Google Scholar
World Health Organisation. WHO Laboratory Manual for the Examination and Processing of Human Semen, 5th ed. Geneva, Switzerland, 2010.World Health OrganisationWHO Laboratory Manual for the Examination and Processing of Human Semen5thGenevaSwitzerland2010Search in Google Scholar
Machev N, Gosset P, Warter S, Treger M, Schillinger M, Viville S. Fluorescence in situ hybridization sperm analysis of six translocation carriers provides evidence of an interchromosomal effect. Fertil Steril. 2005; 84(2): 365-373.MachevNGossetPWarterSTregerMSchillingerMVivilleS.Fluorescence in situ hybridization sperm analysis of six translocation carriers provides evidence of an interchromosomal effectFertil Steril.2005842365373Search in Google Scholar
Mahjoub M, Mehdi M, Brahem S, Elghezal H, Ibala S, Saad A. Chromosomal segregation in spermatozoa of five Robertsonian translocation carriers t(13;14). J Assist Reprod Genet. 2011; 28(7): 607-613.MahjoubMMehdiMBrahemSElghezalHIbalaSSaadA.Chromosomal segregation in spermatozoa of five Robertsonian translocation carriers t(13;14)J Assist Reprod Genet.2011287607613Search in Google Scholar
Rouen A, Pyram K, Pollet-Villard X, Hyon C, Dorna M, Marques S, et al. Simultaneous cell by cell study of both DNA fragmentation and chromosomal segregation in spermatozoa from chromosomal rearrangement carriers. J Assist Reprod Genet. 2013;30(3):383-390. 10.1007/s10815-012-9915-7.RouenAPyramKPollet-VillardXHyonCDornaMMarquesSSimultaneous cell by cell study of both DNA fragmentation and chromosomal segregation in spermatozoa from chromosomal rearrangement carriersJ Assist Reprod Genet201330338339010.1007/s10815-012-9915-7Open DOISearch in Google Scholar
Ferfouri F, Selva J, Boitrelle F, Gomes DM, Torre A, AlbertM, et al. The chromosomal risk in sperm from heterozygous Robertsonian translocation carriers is related to the sperm count and the translocation type. Fertil Steril. 2011; 96(6): 1337-1343.FerfouriFSelvaJBoitrelleFGomesDMTorreAAlbertMThe chromosomal risk in sperm from heterozygous Robertsonian translocation carriers is related to the sperm count and the translocation typeFertil Steril.201196613371343Search in Google Scholar
Kovac JR, Pastuszak AW, Lamb DJ. The use of genomics, proteomics, and metabolomics in identifying biomarkers of male infertility. Fertil Steril. 2013; 99(4): 998-1007.KovacJRPastuszakAWLambDJ.The use of genomics, proteomics, and metabolomics in identifying biomarkers of male infertilityFertil Steril.20139949981007Search in Google Scholar
Luciani JM, Guichaoua MR, Mattei A, Morazzani MR. Pachytene analysis of a man with a 13q;14q translocation and infertility. Behavior of the trivalent and nonrandom association with the sex vesicle. Cytogenet Cell Genet. 1984; 38(1): 14-22.LucianiJMGuichaouaMRMatteiAMorazzaniMR.Pachytene analysis of a man with a 13q;14q translocation and infertility. Behavior of the trivalent and nonrandom association with the sex vesicleCytogenet Cell Genet.19843811422Search in Google Scholar
Navarro J, Vidal F, Benet J, Templado C, Marinas Egozcue J. XY-trivalent association and synaptic anomalies in a male carrier of a Robertsonian t(13;14) translocation. Hum Reprod. 1991; 6(3): 376-381.NavarroJVidalFBenetJTempladoCMarinas EgozcueJ.XY-trivalent association and synaptic anomalies in a male carrier of a Robertsonian t(13;14) translocationHum Reprod.199163376381Search in Google Scholar
Morel F, Douet-Guilbert N, Le Bris MJ, Herry A, Amice V, Amice J, et al. Meiotic segregation of translocations during male gametogenesis. Int J Androl. 2004; 27(4): 200-212.MorelFDouet-GuilbertNLe BrisMJHerryAAmiceVAmiceJMeiotic segregation of translocations during male gametogenesisInt J Androl.2004274200212Search in Google Scholar
Dallapiccola B, Ferranti G, Altissimi D, Colloridi F, Paesano R. First-trimester prenatal diagnosis of homozygous (14;21) translocation in a fetus with 44 chromosomes. Prenat Diagn. 1989; 9(8): 555-558.DallapiccolaBFerrantiGAltissimiDColloridiFPaesanoR.First-trimester prenatal diagnosis of homozygous (14;21) translocation in a fetus with 44 chromosomesPrenat Diagn.198998555558Search in Google Scholar
Martinez-Castro P, Ramos MC, Rey JA, Benitez J, Sanchez Cascos A. Homozygosity for a Robertsonian-translocation (13q14q) in three offspring of heterozygous parents. Cytogenet Cell Genet. 1984; 38(4): 310-312.Martinez-CastroPRamosMCReyJABenitezJSanchez CascosA.Homozygosity for a Robertsonian-translocation (13q14q) in three offspring of heterozygous parentsCytogenet Cell Genet.1984384310312Search in Google Scholar
Rajangam S, Michaelis RC, Velagaleti GV, Lincoln S, Hegde S, Lewin S, et al. Down syndrome with biparental inheritance of der(14q21q) and maternally derived trisomy 21: Confirmation by fluorescent in situ hybridization and microsatellite polymorphism analysis. Am J Med Genet Part A. 1997; 70(1): 43-47.RajangamSMichaelisRCVelagaletiGVLincolnSHegdeSLewinSDown syndrome with biparental inheritance of der(14q21q) and maternally derived trisomy 21: Confirmation by fluorescent in situ hybridization and microsatellite polymorphism analysisAm J Med Genet Part A.19977014347Search in Google Scholar
Wang W, Lan H. Rapid and parallel chromosomal number reductions in muntjac deer inferred from mitochondrial DNA phylogeny. Mol Biol Evol. 2000; 17(9): 1326-1333.WangWLanH.Rapid and parallel chromosomal number reductions in muntjac deer inferred from mitochondrial DNA phylogenyMol Biol Evol.200017913261333Search in Google Scholar
Lindenbaum RH, Hulten M, McDermott A, Seabright M. The prevalence of translocations in parents of children with regular trisomy 21: A possible interchromosomal effect? J Med Genet. 1985; 22(1): 24-28.LindenbaumRHHultenMMcDermottASeabrightM.The prevalence of translocations in parents of children with regular trisomy 21: A possible interchromosomal effect?J Med Genet.19852212428Search in Google Scholar
Britton-Davidian J, Catalan J, da Graça Ramalhinho M, Ganem G, Auffray JC, Capela R, et al. Rapid chromosomal evolution in island mice. Nature. 2000; 403(6766): 158.Britton-DavidianJCatalanJda Graça RamalhinhoMGanemGAuffrayJCCapelaRRapid chromosomal evolution in island miceNature20004036766158Search in Google Scholar
Bint SM, Makie Ogilvie C, Flinter FA, Khalaf Y, Scriven PN. Meiotic segregation of Robertsonian translocations ascertained in cleavage-stage embryos — Implications for preimplantation genetic diagnosis. Hum Reprod. 2011: 26(6): 1575-1584.BintSMMakie OgilvieCFlinterFAKhalafYScrivenPN.Meiotic segregation of Robertsonian translocations ascertained in cleavage-stage embryos — Implications for preimplantation genetic diagnosisHum Reprod.201126615751584Search in Google Scholar
Bernicot I, Schneider A, Mace A, Hamamah S, Hedon B, Pellestor F, et al. Analysis using fish of sperm and embryos from two carriers of rare rob(13;21) and rob(15; 22) robertsonian translocation undergoing PGD. Eur J Med Genet. 2012; 55(4?): 245-251.BernicotISchneiderAMaceAHamamahSHedonBPellestorFAnalysis using fish of sperm and embryos from two carriers of rare rob(13;21) and rob(15; 22) robertsonian translocation undergoing PGDEur J Med Genet.2012554?245251Search in Google Scholar
Fischer J, Colls P, Escudero T, Munne S. Preim-plantation genetic diagnosis (PGD) improves pregnancy outcome for translocation carriers with a history of recurrent losses. Fertil Steril. 2010; 94(1): 283-289.FischerJCollsPEscuderoTMunneS.Preim-plantation genetic diagnosis (PGD) improves pregnancy outcome for translocation carriers with a history of recurrent lossesFertil Steril.2010941283289Search in Google Scholar
Jin H, Ping L, Jie Q, Ying L, Jongjian C. Translocation chromosome karyotypes of the Robertsonian trans-location carriers’ embryos. Fertil Steril. 2010; 93(4): 1061-1065.JinHPingLJieQYingLJongjianC.Translocation chromosome karyotypes of the Robertsonian trans-location carriers’ embryosFertil Steril.201093410611065Search in Google Scholar
John B. Chromosome change and evolutionary change: A critique. In: Atchley WR, Woodruff DS, Eds. Evolution and Specification: Essays in Honor of M.J.D. White. London, UK: Cambridge University Press. 1981: 23-51.JohnB.Chromosome change and evolutionary change: A critiqueAtchleyWRWoodruffDSEvolution and Specification: Essays in Honor of M.J.D. WhiteLondon, UKCambridge University Press19812351Search in Google Scholar
Wang B, Xia Y, Song J, Wang W, Tang Y. Potential speciation in humans involving Robertsonian translocations. Biomed Res. 2013; 24(1): 171-174WangBXiaYSongJWangWTangY.Potential speciation in humans involving Robertsonian translocationsBiomed Res.2013241171174Search in Google Scholar