Osteogenesis Imperfecta. The Position of Substitution for Glycine by Cysteine in the Triple Helical Domain of the Pro Alpha 1(I) Chains of Type I Collagen Determines the Clinical Phenotype.

Consortium for osteogenesis imperfecta mutations in the helical domain of type I collagen: regions rich in lethal mutations align with collagen binding sites for integrins and proteoglycans.

Marini, Joan C
Forlino, Antonella
Cabral, Wayne A
Barnes, Aileen M
San Antonio, James D
Milgrom, Sarah
Hyland, James C
Körkkö, Jarmo
Prockop, Darwin J
De Paepe, Anne
Coucke, Paul
Symoens, Sofie
Glorieux, Francis H
Roughley, Peter J
Lund, Alan M
Kuurila-Svahn, Kaija
Hartikka, Heini
Cohn, Daniel H
Krakow, Deborah
Mottes, Monica
Schwarze, Ulrike
Chen, Diana
Yang, Kathleen
Kuslich, Christine
Troendle, James
Dalgleish, Raymond
Byers, Peter H

March 2007

Osteogenesis imperfecta (OI) is a generalized disorder of connective tissue characterized by fragile...

Glycine to tryptophan substitution in type I collagen in a patient with OI type III: a unique collagen mutation.

Nuytinck, Lieve
TUKEL, T
KAYSERILI, H
APAK, MY
De Paepe, Anne

January 2000

We report a unique glycine substitution in type I collagen and highlight the clinical and biochemica...

An osteopenic nonfracture syndrome with features of mild osteogenesis imperfecta associated with the substitution of a cysteine for glycine at triple helix position 43 in the proα1(I) chain of type I collagen

Shapiro, J. R.
Stover, M. L.
Burn, V. E.
McKinstry, M. B.
Burshell, A. L.
Chipman, S. D.
Rowe, D. W.

February 1992

Mutations affecting the pro alpha 1(I) or pro alpha 2(I) collagen genes have been identified in each...

Osteogenesis Imperfecta. The Position of Substitution for Glycine by Cysteine in the Triple Helical Domain of the Pro Alpha 1(I) Chains of Type I Collagen Determines the Clinical Phenotype.

Starman, Barbra J
Eyre, David
Charbonneau, Harry
Harrylock, Maria
Weis, Mary Ann
Weiss, Lester
Graham, John M, Jr.
Byers, Peter H

October 1989

Skin fibroblasts grown from three individuals with osteogenesis imperfecta (OI) each synthesized a p...

Osteogenesis imperfecta. The position of substitution for glycine by cysteine in the triple helical domain of the Proα1(I) chains of type I collagen determines the clinical phenotype

Starman, B. J.
Eyre, D.
Charbonneau, H.
Harrylock, M.
Weis, M. A.
Weiss, L.
Graham, J. M.
Byers, P. H.

January 1989

Skin fibroblasts grown from three individuals with osteogenesis imperfecta (OI) each synthesized a p...

A de novo G to T transversion in a pro-alpha 1 (I) collagen gene for a moderate case of osteogenesis imperfecta. Substitution of cysteine for glycine 178 in the triple helical domain.

Giuseppe Cetta
A Sangalli
M Gomez Lira
P F Pignatti
F Antoniazzi
Maurizia Valli
Ruggero Tenni
M. Mottes
Antonio Rossi

January 1991

Cultured fibroblasts from a patient affected with a moderate form of osteogenesis imperfecta were de...

A de novo G to T transversion in a pro-a1(I) collagen gene for a moderate case of osteogenesis imperfecta. Substitution of cysteine for glycine 178 in the triple helical domain.

VALLI, MAURIZIA
TENNI, RUGGERO
ROSSI, ANTONIO
CETTA, GIUSEPPE
M. Mottes
A. Sangalli
M. Gomez Lyra
F. Antoniazzi
P. F. Pignatti

January 1991

Cultured fibroblasts from a patient affected with a moderate form of osteogenesis imperfecta were de...

Structural study of a mutant type I collagen from a patient with lethal osteogenesis imperfecta containing an intramolecular disulfide bond in the triple-helical domain

Traub, Wolfie
Steinmann, Beat

March 1986

AbstractWe have built molecular models of collagen type I from a patient with lethal osteogenesis im...

Type I collagen triplet duplication mutation in lethal osteogenesis imperfecta shifts register of alpha chains throughout the helix and disrupts incorporation of mutant helices into fibrils and extracellular matrix.

Cabral, Wayne A
Mertts, Marianna V
Makareeva, Elena
Colige, Alain
Tekin, Mustafa
Pandya, Arti
Leikin, Sergey
Marini, Joan C

January 2003

The majority of collagen mutations causing osteogenesis imperfecta (OI) are glycine substitutions th...

Substitutions for arginine at position 780 in triple helical domain of the α1(I) chain alter folding of the type I procollagen molecule and cause osteogenesis imperfecta

Elena Makareeva (80042)
Guoli Sun (4589668)
Lynn S. Mirigian (5497547)
Edward L. Mertz (589457)
Juan C. Vera (623740)
Nydea A. Espinoza (5497556)
Kathleen Yang (5497550)
Diana Chen (5497553)
Teri E. Klein (205386)
Peter H. Byers (249077)
Sergey Leikin (80043)

July 2018

<div><p>OI is a clinically and genetically heterogeneous disorder characterized by bone fragility. M...

Substitutions for arginine at position 780 in triple helical domain of the α1(I) chain alter folding of the type I procollagen molecule and cause osteogenesis imperfecta.

Elena Makareeva
Guoli Sun
Lynn S Mirigian
Edward L Mertz
Juan C Vera
Nydea A Espinoza
Kathleen Yang
Diana Chen
Teri E Klein
Peter H Byers
Sergey Leikin

January 2018

OI is a clinically and genetically heterogeneous disorder characterized by bone fragility. More than...

Substitution of glycine-661 by serine in the α1(I) and α2(I) chains of type I collagen results in different clinical and biochemical phenotypes

Nuytinck, Lieve
Dalgleish, Raymond
Spotila, Loretta
Renard, Jean-Pierre
Van Regemorter, Nicole
De Paepe, Anne

January 1996

We have characterised a point mutation causing the substitution of serine for glycine at position 66...

Severe (type III) osteogenesis imperfecta due to glycine substitutions in the central domain of the collagen triple helix

A. Forlino
F. Zolezzi
M. Valli
PIGNATTI, Pierfranco
G. Cetta
P. C. Brunelli
MOTTES, Monica

January 1994

The molecular defects responsible for three cases of severe (type III) osteogenesis imperfecta (OI) ...

Characterization of three osteogenesis imperfecta collagen α1(I) glycine to serine mutations demonstrating a position-dependent gradient of phenotypic severity

Bateman, JF
Moeller, I
Hannagan, M
Chan, D
Cole, WG

January 1992

Type I collagen α1(I) glycine to serine substitutions, resulting from G-to-A mutations, were defined...

Osteogenesis imperfects phenotypes resulting from serine for glycine substitutions in the α2(I) collagen chain

Nuytinck, Lieve
Wettinck, K
Freund, M
Van Maldergem, L
Fabry, G
De Paepe, Anne

January 1997

Clinical and biochemical findings in 5 unrelated patients with osteogenesis imperfecta (OI) with a s...

Consortium for osteogenesis imperfecta mutations in the helical domain of type I collagen: regions rich in lethal mutations align with collagen binding sites for integrins and proteoglycans.

Marini, Joan C
Forlino, Antonella
Cabral, Wayne A
Barnes, Aileen M
San Antonio, James D
Milgrom, Sarah
Hyland, James C
Körkkö, Jarmo
Prockop, Darwin J
De Paepe, Anne
Coucke, Paul
Symoens, Sofie
Glorieux, Francis H
Roughley, Peter J
Lund, Alan M
Kuurila-Svahn, Kaija
Hartikka, Heini
Cohn, Daniel H
Krakow, Deborah
Mottes, Monica
Schwarze, Ulrike
Chen, Diana
Yang, Kathleen
Kuslich, Christine
Troendle, James
Dalgleish, Raymond
Byers, Peter H

March 2007

Osteogenesis imperfecta (OI) is a generalized disorder of connective tissue characterized by fragile...

Glycine to tryptophan substitution in type I collagen in a patient with OI type III: a unique collagen mutation.

Nuytinck, Lieve
TUKEL, T
KAYSERILI, H
APAK, MY
De Paepe, Anne

January 2000

We report a unique glycine substitution in type I collagen and highlight the clinical and biochemica...

An osteopenic nonfracture syndrome with features of mild osteogenesis imperfecta associated with the substitution of a cysteine for glycine at triple helix position 43 in the proα1(I) chain of type I collagen

Shapiro, J. R.
Stover, M. L.
Burn, V. E.
McKinstry, M. B.
Burshell, A. L.
Chipman, S. D.
Rowe, D. W.

February 1992

Mutations affecting the pro alpha 1(I) or pro alpha 2(I) collagen genes have been identified in each...

Osteogenesis Imperfecta. The Position of Substitution for Glycine by Cysteine in the Triple Helical Domain of the Pro Alpha 1(I) Chains of Type I Collagen Determines the Clinical Phenotype.

Starman, Barbra J
Eyre, David
Charbonneau, Harry
Harrylock, Maria
Weis, Mary Ann
Weiss, Lester
Graham, John M, Jr.
Byers, Peter H

October 1989

Skin fibroblasts grown from three individuals with osteogenesis imperfecta (OI) each synthesized a p...

Osteogenesis imperfecta. The position of substitution for glycine by cysteine in the triple helical domain of the Proα1(I) chains of type I collagen determines the clinical phenotype

Starman, B. J.
Eyre, D.
Charbonneau, H.
Harrylock, M.
Weis, M. A.
Weiss, L.
Graham, J. M.
Byers, P. H.

January 1989

Skin fibroblasts grown from three individuals with osteogenesis imperfecta (OI) each synthesized a p...

A de novo G to T transversion in a pro-alpha 1 (I) collagen gene for a moderate case of osteogenesis imperfecta. Substitution of cysteine for glycine 178 in the triple helical domain.

Giuseppe Cetta
A Sangalli
M Gomez Lira
P F Pignatti
F Antoniazzi
Maurizia Valli
Ruggero Tenni
M. Mottes
Antonio Rossi

January 1991

Cultured fibroblasts from a patient affected with a moderate form of osteogenesis imperfecta were de...

A de novo G to T transversion in a pro-a1(I) collagen gene for a moderate case of osteogenesis imperfecta. Substitution of cysteine for glycine 178 in the triple helical domain.

VALLI, MAURIZIA
TENNI, RUGGERO
ROSSI, ANTONIO
CETTA, GIUSEPPE
M. Mottes
A. Sangalli
M. Gomez Lyra
F. Antoniazzi
P. F. Pignatti

January 1991

Cultured fibroblasts from a patient affected with a moderate form of osteogenesis imperfecta were de...

Structural study of a mutant type I collagen from a patient with lethal osteogenesis imperfecta containing an intramolecular disulfide bond in the triple-helical domain

Traub, Wolfie
Steinmann, Beat

March 1986

AbstractWe have built molecular models of collagen type I from a patient with lethal osteogenesis im...

Type I collagen triplet duplication mutation in lethal osteogenesis imperfecta shifts register of alpha chains throughout the helix and disrupts incorporation of mutant helices into fibrils and extracellular matrix.

Cabral, Wayne A
Mertts, Marianna V
Makareeva, Elena
Colige, Alain
Tekin, Mustafa
Pandya, Arti
Leikin, Sergey
Marini, Joan C

January 2003

The majority of collagen mutations causing osteogenesis imperfecta (OI) are glycine substitutions th...

Substitutions for arginine at position 780 in triple helical domain of the α1(I) chain alter folding of the type I procollagen molecule and cause osteogenesis imperfecta

Elena Makareeva (80042)
Guoli Sun (4589668)
Lynn S. Mirigian (5497547)
Edward L. Mertz (589457)
Juan C. Vera (623740)
Nydea A. Espinoza (5497556)
Kathleen Yang (5497550)
Diana Chen (5497553)
Teri E. Klein (205386)
Peter H. Byers (249077)
Sergey Leikin (80043)

July 2018

<div><p>OI is a clinically and genetically heterogeneous disorder characterized by bone fragility. M...

Substitutions for arginine at position 780 in triple helical domain of the α1(I) chain alter folding of the type I procollagen molecule and cause osteogenesis imperfecta.

Elena Makareeva
Guoli Sun
Lynn S Mirigian
Edward L Mertz
Juan C Vera
Nydea A Espinoza
Kathleen Yang
Diana Chen
Teri E Klein
Peter H Byers
Sergey Leikin

January 2018

OI is a clinically and genetically heterogeneous disorder characterized by bone fragility. More than...

Substitution of glycine-661 by serine in the α1(I) and α2(I) chains of type I collagen results in different clinical and biochemical phenotypes

Nuytinck, Lieve
Dalgleish, Raymond
Spotila, Loretta
Renard, Jean-Pierre
Van Regemorter, Nicole
De Paepe, Anne

January 1996

We have characterised a point mutation causing the substitution of serine for glycine at position 66...

Severe (type III) osteogenesis imperfecta due to glycine substitutions in the central domain of the collagen triple helix

A. Forlino
F. Zolezzi
M. Valli
PIGNATTI, Pierfranco
G. Cetta
P. C. Brunelli
MOTTES, Monica

January 1994

The molecular defects responsible for three cases of severe (type III) osteogenesis imperfecta (OI) ...

Characterization of three osteogenesis imperfecta collagen α1(I) glycine to serine mutations demonstrating a position-dependent gradient of phenotypic severity

Bateman, JF
Moeller, I
Hannagan, M
Chan, D
Cole, WG

January 1992

Type I collagen α1(I) glycine to serine substitutions, resulting from G-to-A mutations, were defined...

Osteogenesis imperfects phenotypes resulting from serine for glycine substitutions in the α2(I) collagen chain

Nuytinck, Lieve
Wettinck, K
Freund, M
Van Maldergem, L
Fabry, G
De Paepe, Anne

January 1997

Clinical and biochemical findings in 5 unrelated patients with osteogenesis imperfecta (OI) with a s...

Consortium for osteogenesis imperfecta mutations in the helical domain of type I collagen: regions rich in lethal mutations align with collagen binding sites for integrins and proteoglycans.

Marini, Joan C
Forlino, Antonella
Cabral, Wayne A
Barnes, Aileen M
San Antonio, James D
Milgrom, Sarah
Hyland, James C
Körkkö, Jarmo
Prockop, Darwin J
De Paepe, Anne
Coucke, Paul
Symoens, Sofie
Glorieux, Francis H
Roughley, Peter J
Lund, Alan M
Kuurila-Svahn, Kaija
Hartikka, Heini
Cohn, Daniel H
Krakow, Deborah
Mottes, Monica
Schwarze, Ulrike
Chen, Diana
Yang, Kathleen
Kuslich, Christine
Troendle, James
Dalgleish, Raymond
Byers, Peter H

March 2007

Osteogenesis imperfecta (OI) is a generalized disorder of connective tissue characterized by fragile...

Glycine to tryptophan substitution in type I collagen in a patient with OI type III: a unique collagen mutation.

Nuytinck, Lieve
TUKEL, T
KAYSERILI, H
APAK, MY
De Paepe, Anne

January 2000

We report a unique glycine substitution in type I collagen and highlight the clinical and biochemica...

An osteopenic nonfracture syndrome with features of mild osteogenesis imperfecta associated with the substitution of a cysteine for glycine at triple helix position 43 in the proα1(I) chain of type I collagen

Shapiro, J. R.
Stover, M. L.
Burn, V. E.
McKinstry, M. B.
Burshell, A. L.
Chipman, S. D.
Rowe, D. W.

February 1992

Mutations affecting the pro alpha 1(I) or pro alpha 2(I) collagen genes have been identified in each...

Osteogenesis Imperfecta. The Position of Substitution for Glycine by Cysteine in the Triple Helical Domain of the Pro Alpha 1(I) Chains of Type I Collagen Determines the Clinical Phenotype.

Abstract

Extracted data

Osteogenesis Imperfecta. The Position of Substitution for Glycine by Cysteine in the Triple Helical Domain of the Pro Alpha 1(I) Chains of Type I Collagen Determines the Clinical Phenotype.

Abstract

Extracted data

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