1994
DOI: 10.1136/vr.134.10.241
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Trisomy-X in a sterile river buffalo

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Cited by 13 publications
(14 citation statements)
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“…Non-mosaic X-chromosome trisomy has also been found in cattle, river buffalo, dog, and alpaca ( table 1 ). In cattle and river buffalo, some animals are fertile [Yadav and Balakrishnan, 1982] or subfertile [Swartz and Vogt, 1983], while others have impaired reproductive physiology and are sterile [Prakash et al, 1994;Moreno-Millan et al, 1987]. The single X-trisomy case found in dogs was associated with gonadal dysgenesis [Johnston et al, 1985].…”
Section: X-trisomymentioning
confidence: 99%
“…Non-mosaic X-chromosome trisomy has also been found in cattle, river buffalo, dog, and alpaca ( table 1 ). In cattle and river buffalo, some animals are fertile [Yadav and Balakrishnan, 1982] or subfertile [Swartz and Vogt, 1983], while others have impaired reproductive physiology and are sterile [Prakash et al, 1994;Moreno-Millan et al, 1987]. The single X-trisomy case found in dogs was associated with gonadal dysgenesis [Johnston et al, 1985].…”
Section: X-trisomymentioning
confidence: 99%
“…The river buffalo X chromosome is characterized by a prominent, somewhat triangular C-band and an intercalary heterochromatic band often appears below the C-band (Prakash et al, 1994;Di Meo et al, 1995). In the present study, all 100 metaphases screened exhibited 50 chromosomes, including the Y chromosome and a very large metacentric chromosome which was the result of a centric fusion between the two X chromosomes, as revealed by GTGbanding ( Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Various chromosomal anomalies associated with infertility and reduced fertility have been documented in both human and cattle, while few cases have been studied in river buffalo. Most of these buffaloes showed chromosomal anomalies involving autosomes, such as translocations (Vijh et al, 1994), chromosome polymorphisms (Patel et al, 1997;Patel and Khoda, 1998), inversions (Balakrishnan et al, 1985), fragile sites (Sanghamitra et al, 2004 ) and secondary constrictions (Balakrishnan and Yadav, 1984;Patel, 1999), or sex chromosome aneuploidy, such as X0 (Yadav et al, 1990;Prakash et al, 1992;Iannuzzi et al, 2000), XXX (Balakrishnan and Yadav, 1984 ;Prakash et al, 1994;Iannuzzi et al, 2004) and XX/XY chimerism (Balakrishnan et al, 1981;Iannuzzi et al, 2005). While sex chromosome aneuploidy is generally due to nondisjunction durSupported by Dairyboard, India.…”
mentioning
confidence: 99%
“…Where artificial insemination (Al) is used, chromosomal aberration can be transmitted to large populations and it can cause repeat breeding in females because of embryonic losses, and poor semen quality in bulls. Cytogenetics in domestic animals was started in the early sixties and various abnormalities have been reported in Indian cattle (Prakash et al, 1995;Patel et al, 1997a;Patel, 1999a;Patel and Patel, 2000;Yadav, 2000;Patel, 2002Patel, 2003Muralidharan et al, 2011) and in buffaloes (Balakrishnan and Yadav 1984;Balakrishnan et al, 1985;Yadav et al, 1987;Yadav et al, 1990;Prakash et al, 1992;Prakash et al, 1994;Vijh et al, 1994;Patel et al, 1997;Patel and Khoda, 1998;Patel, 1999b;Patel et al, 2006;Chauhan et al, 2009;Prakash and Singh, 2009 …”
Section: Introductionmentioning
confidence: 99%