Molecular genetics of human blue cone monochromacy

Jeremy Nathans; Carol M. Davenport; Irene H. Maumenee; Richard Alan Lewis; J. Fielding Hejtmancik; Michael Litt; Everett Lovrien; Richard Weleber; Brian Bachynski; Fred Zwas; Roger Klingaman; Gerald Fishman

doi:10.1126/science.2788922

Molecular genetics of human blue cone monochromacy

Jeremy Nathans, Carol M. Davenport, Irene H. Maumenee, Richard Alan Lewis, J. Fielding Hejtmancik, Michael Litt, Everett Lovrien, Richard Weleber, Brian Bachynski, Fred Zwas, Roger Klingaman, Gerald Fishman

Howard Hughes Medical Institution

Research output: Contribution to journal › Article › peer-review

229 Scopus citations

Abstract

Blue cone monochromacy is a rare X-linked disorder of color vision characterized by the absence of both red and green cone sensitivities. In 12 of 12 families carrying this trait, alterations are observed in the red and green visual pigment gene cluster. The alterations fall into two classes. One class arose from the wild type by a two-step pathway consisting of unequal homologous recombination and point mutation. The second class arose by nonhomologous deletion of genomic DNA adjacent to the red and green pigment gene cluster. These deletions define a 579-base pair region that is located 4 kilobases upstream of the red pigment gene and 43 kilobases upstream of the nearest green pigment gene; this 579-base pair region is essential for the activity of both pigment genes.

Original language	English (US)
Pages (from-to)	831-838
Number of pages	8
Journal	Science
Volume	245
Issue number	4920
DOIs	https://doi.org/10.1126/science.2788922
State	Published - 1989

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title = "Molecular genetics of human blue cone monochromacy",

abstract = "Blue cone monochromacy is a rare X-linked disorder of color vision characterized by the absence of both red and green cone sensitivities. In 12 of 12 families carrying this trait, alterations are observed in the red and green visual pigment gene cluster. The alterations fall into two classes. One class arose from the wild type by a two-step pathway consisting of unequal homologous recombination and point mutation. The second class arose by nonhomologous deletion of genomic DNA adjacent to the red and green pigment gene cluster. These deletions define a 579-base pair region that is located 4 kilobases upstream of the red pigment gene and 43 kilobases upstream of the nearest green pigment gene; this 579-base pair region is essential for the activity of both pigment genes.",

author = "Jeremy Nathans and Davenport, {Carol M.} and Maumenee, {Irene H.} and Lewis, {Richard Alan} and Hejtmancik, {J. Fielding} and Michael Litt and Everett Lovrien and Richard Weleber and Brian Bachynski and Fred Zwas and Roger Klingaman and Gerald Fishman",

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doi = "10.1126/science.2788922",

language = "English (US)",

volume = "245",

pages = "831--838",

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TY - JOUR

T1 - Molecular genetics of human blue cone monochromacy

AU - Nathans, Jeremy

AU - Davenport, Carol M.

AU - Maumenee, Irene H.

AU - Lewis, Richard Alan

AU - Hejtmancik, J. Fielding

AU - Litt, Michael

AU - Lovrien, Everett

AU - Weleber, Richard

AU - Bachynski, Brian

AU - Zwas, Fred

AU - Klingaman, Roger

AU - Fishman, Gerald

PY - 1989

Y1 - 1989

N2 - Blue cone monochromacy is a rare X-linked disorder of color vision characterized by the absence of both red and green cone sensitivities. In 12 of 12 families carrying this trait, alterations are observed in the red and green visual pigment gene cluster. The alterations fall into two classes. One class arose from the wild type by a two-step pathway consisting of unequal homologous recombination and point mutation. The second class arose by nonhomologous deletion of genomic DNA adjacent to the red and green pigment gene cluster. These deletions define a 579-base pair region that is located 4 kilobases upstream of the red pigment gene and 43 kilobases upstream of the nearest green pigment gene; this 579-base pair region is essential for the activity of both pigment genes.

AB - Blue cone monochromacy is a rare X-linked disorder of color vision characterized by the absence of both red and green cone sensitivities. In 12 of 12 families carrying this trait, alterations are observed in the red and green visual pigment gene cluster. The alterations fall into two classes. One class arose from the wild type by a two-step pathway consisting of unequal homologous recombination and point mutation. The second class arose by nonhomologous deletion of genomic DNA adjacent to the red and green pigment gene cluster. These deletions define a 579-base pair region that is located 4 kilobases upstream of the red pigment gene and 43 kilobases upstream of the nearest green pigment gene; this 579-base pair region is essential for the activity of both pigment genes.

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Molecular genetics of human blue cone monochromacy

Abstract

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