PURPOSE: To visualize by direct fluorescent in situ hybridization the entire human visual pigment gene array on single X-chromosome fibers and to compare the results with values obtained by other molecular techniques. METHODS: The size of the opsin gene array on the X-chromosome in eight male subjects was investigated by (i) direct visual in situ hybridization (DIRVISH) on elongated DNA fibers: (ii) quantitation of genomic restriction fragments after Southern blot hybridization; (iii) quantitation of restriction fragment length polymorphism after PCR amplification (PCR/RFLP), and (iv) sizing of NotI fragments by pulsed field gel electrophoresis and Southern blot detection. Each male subject's color vision was assessed by Rayleigh matches on a Nagel Type 1 anomaloscope. RESULTS: The number of genes resolved by the DIRVISH protocol, which ranges from 1 to 6, agrees exactly with the gene array sizes obtained in the same male subjects from pulsed field gel electrophoresis, but differs from the estimates derived from the commonly used indirect Southern blot hybridization and PCR/RFLP quantitation methods. In particular, the PCR/RFLP method overestimates the copy number in all but the smallest arrays. CONCLUSIONS: Visualization of the X-chromosome opsin gene array by DIRVISH provides a new, direct method for obtaining exact copy numbers and helps to resolve the controversy about the range and the average visual pigment gene number in the human population in favor of smaller average array sizes.
PURPOSE: To visualize by direct fluorescent in situ hybridization the entire human visual pigment gene array on single X-chromosome fibers and to compare the results with values obtained by other molecular techniques. METHODS: The size of the opsin gene array on the X-chromosome in eight male subjects was investigated by (i) direct visual in situ hybridization (DIRVISH) on elongated DNA fibers: (ii) quantitation of genomic restriction fragments after Southern blot hybridization; (iii) quantitation of restriction fragment length polymorphism after PCR amplification (PCR/RFLP), and (iv) sizing of NotI fragments by pulsed field gel electrophoresis and Southern blot detection. Each male subject's color vision was assessed by Rayleigh matches on a Nagel Type 1 anomaloscope. RESULTS: The number of genes resolved by the DIRVISH protocol, which ranges from 1 to 6, agrees exactly with the gene array sizes obtained in the same male subjects from pulsed field gel electrophoresis, but differs from the estimates derived from the commonly used indirect Southern blot hybridization and PCR/RFLP quantitation methods. In particular, the PCR/RFLP method overestimates the copy number in all but the smallest arrays. CONCLUSIONS: Visualization of the X-chromosome opsin gene array by DIRVISH provides a new, direct method for obtaining exact copy numbers and helps to resolve the controversy about the range and the average visual pigment gene number in the human population in favor of smaller average array sizes.
Authors: Bernd Wissinger; Britta Baumann; Elena Buena-Atienza; Zeinab Ravesh; Artur V Cideciyan; Katarina Stingl; Isabelle Audo; Isabelle Meunier; Beatrice Bocquet; Elias I Traboulsi; Alison J Hardcastle; Jessica C Gardner; Michel Michaelides; Kari E Branham; Thomas Rosenberg; Sten Andreasson; Hélène Dollfus; David Birch; Andrea L Vincent; Loreto Martorell; Jaume Català Mora; Ulrich Kellner; Klaus Rüther; Birgit Lorenz; Markus N Preising; Emanuela Manfredini; Yuri A Zarate; Raymon Vijzelaar; Eberhart Zrenner; Samuel G Jacobson; Susanne Kohl Journal: Proc Natl Acad Sci U S A Date: 2022-06-27 Impact factor: 12.779
Authors: Matthew N Ward; Allison M Churcher; Kevin J Dick; Chris R J Laver; Greg L Owens; Megan D Polack; Pam R Ward; Felix Breden; John S Taylor Journal: BMC Evol Biol Date: 2008-07-18 Impact factor: 3.260
Authors: Elena Buena-Atienza; Klaus Rüther; Britta Baumann; Richard Bergholz; David Birch; Elfride De Baere; Helene Dollfus; Marie T Greally; Peter Gustavsson; Christian P Hamel; John R Heckenlively; Bart P Leroy; Astrid S Plomp; Jan Willem R Pott; Katherine Rose; Thomas Rosenberg; Zornitza Stark; Joke B G M Verheij; Richard Weleber; Ditta Zobor; Nicole Weisschuh; Susanne Kohl; Bernd Wissinger Journal: Sci Rep Date: 2016-06-24 Impact factor: 4.379