Differentiating Inbred Mouse Strains from Each Other and Those with Single Gene Mutations Using Hair Proteomics

Optimal processing for proteomic genotyping of single human hairs.

Goecker, Zachary C
Salemi, Michelle R
Karim, Noreen
Phinney, Brett S
Rice, Robert H
Parker, Glendon J

July 2020

The use of hair evidence for human identification is undergoing considerable improvement through the...

Genetic characterization of newly developed mutant hairless mice “HRCDRI”

Maity, B
Guru, P Y

October 2004

546-551 Newly developed mutant hairless mice and two outbred mouse strains (Park and Swiss) were exa...

Protein Database and Quantitative Analysis Considerations when Integrating Genetics and Proteomics to Compare Mouse Strains

Suzanne S. Fei (1278480)
Phillip A. Wilmarth (231403)
Robert J. Hitzemann (1278486)
Shannon K. McWeeney (226756)
John K. Belknap (1278483)
Larry L. David (231405)

December 2015

Decades of genetics research comparing mouse strains has identified many regions of the genome assoc...

Differentiating inbred mouse strains from each other and those with single gene mutations using hair proteomics.

Rice, Robert H
Bradshaw, Katie M
Durbin-Johnson, Blythe P
Rocke, David M
Eigenheer, Richard A
Phinney, Brett S
Sundberg, John P

January 2012

Mutant laboratory mice with distinctive hair phenotypes are useful for identifying genes responsible...

Differentiating Inbred Mouse Strains from Each Other and Those with Single Gene Mutations Using Hair

Robert H. Rice
Katie M. Bradshaw
Blythe P. Durbin-johnson
David M. Rocke
Richard A. Eigenheer
Brett S. Phinney
John P. Sundberg

January 2012

Mutant laboratory mice with distinctive hair phenotypes are useful for identifying genes responsible...

Distinguishing Mouse Strains by Proteomic Analysis of Pelage Hair

Rice, Robert H.
Rocke, David M.
Tsai, Hua-Sheng
Silva, Kathleen A.
Lee, Young Jin
Sundberg, John P.

September 2009

AKR/J mice display a hair interior defect (hid) phenotype for which the molecular basis is unknown. ...

Distinguishing mouse strains by proteomic analysis of pelage hair.

Rice, R H
Rocke, D M
Tsai, H S
Silva, K A
Lee, Y J
Sundberg, J P

January 2009

AKR/J mice display a hair interior defect (hid) phenotype for which the molecular basis is unknown. ...

Numbers of proteins differing significantly among mouse strains.*

Robert H. Rice (112903)
Katie M. Bradshaw (112908)
Blythe P. Durbin-Johnson (112913)
David M. Rocke (112920)
Richard A. Eigenheer (112927)
Brett S. Phinney (112933)
John P. Sundberg (112938)

December 2012

*Shown in the matrix are the mouse strains, above each of which is the phylogenetic group to whic...

Morphology of hair in normal and mutant laboratory mice.

Sundberg, J P
King, L E

January 2001

Inbred laboratory mice are mammals and therefore are haired. Mice develop many of the same diseases ...

Mouse models for the study of human hair loss.

Sundberg, J P
King, L E

January 1996

A comparison has been presented to illustrate many of the similarities in patterns of disease betwee...

Proteomic analysis of hair shafts from monozygotic twins: Expression profiles and genetically variant peptides.

Wu, Pei-Wen
Mason, Katelyn E
Durbin-Johnson, Blythe P
Salemi, Michelle
Phinney, Brett S
Rocke, David M
Parker, Glendon J
Rice, Robert H

July 2017

Forensic association of hair shaft evidence with individuals is currently assessed by comparing mito...

Excavating the Genome: Large-Scale Mutagenesis Screening for the Discovery of New Mouse Models

Sundberg, John P.
Dadras, Soheil S.
Silva, Kathleen A.
Kennedy, Victoria E.
Murray, Stephen A.
Denegre, James M.
Schofield, Paul N.
King, Lloyd E.
Wiles, Michael V.
Herbert Pratt, C.

November 2015

Technology now exists for rapid screening of mutated laboratory mice to identify phenotypes associat...

Crisp1 and alopecia areata in C3H/HeJ mice.

Sundberg, John P
Awgulewitsch, Alexander
Pruett, Nathan D
Potter, Christopher S
Silva, Kathleen A
Stearns, Timothy M
Sundberg, Beth A
Muñoz, Mariana Weigel
Cuasnicu, Patricia S
King, Lloyd E
Rice, Robert H

December 2014

Alopecia areata (AA), a cell mediated autoimmune disease, is the second most common form of hair los...

Differential Expression of Proteins Associated with the Hair Follicle Cycle - Proteomics and Bioinformatics Analyses

Lei Wang (6656)
Wenrong Xu (110863)
Lei Cao (134409)
Tian Tian (170088)
Mifang Yang (845048)
Zhongming Li (683238)
Fengfeng Ping (845049)
Weixin Fan (845050)

January 2016

<div>Hair follicle cycling can be divided into the following three stages: anagen, catagen, and t...

Proteins discriminating among fractionated hair shafts of mouse strains surveyed.*

Robert H. Rice (112903)
Katie M. Bradshaw (112908)
Blythe P. Durbin-Johnson (112913)
David M. Rocke (112920)
Richard A. Eigenheer (112927)
Brett S. Phinney (112933)
John P. Sundberg (112938)

December 2012

*The insoluble particulate (Part) and solubilized (Sol) fractions were analyzed separately and th...

Optimal processing for proteomic genotyping of single human hairs.

Goecker, Zachary C
Salemi, Michelle R
Karim, Noreen
Phinney, Brett S
Rice, Robert H
Parker, Glendon J

July 2020

The use of hair evidence for human identification is undergoing considerable improvement through the...

Genetic characterization of newly developed mutant hairless mice “HRCDRI”

Maity, B
Guru, P Y

October 2004

546-551 Newly developed mutant hairless mice and two outbred mouse strains (Park and Swiss) were exa...

Protein Database and Quantitative Analysis Considerations when Integrating Genetics and Proteomics to Compare Mouse Strains

Suzanne S. Fei (1278480)
Phillip A. Wilmarth (231403)
Robert J. Hitzemann (1278486)
Shannon K. McWeeney (226756)
John K. Belknap (1278483)
Larry L. David (231405)

December 2015

Decades of genetics research comparing mouse strains has identified many regions of the genome assoc...

Differentiating inbred mouse strains from each other and those with single gene mutations using hair proteomics.

Rice, Robert H
Bradshaw, Katie M
Durbin-Johnson, Blythe P
Rocke, David M
Eigenheer, Richard A
Phinney, Brett S
Sundberg, John P

January 2012

Mutant laboratory mice with distinctive hair phenotypes are useful for identifying genes responsible...

Differentiating Inbred Mouse Strains from Each Other and Those with Single Gene Mutations Using Hair

Robert H. Rice
Katie M. Bradshaw
Blythe P. Durbin-johnson
David M. Rocke
Richard A. Eigenheer
Brett S. Phinney
John P. Sundberg

January 2012

Mutant laboratory mice with distinctive hair phenotypes are useful for identifying genes responsible...

Distinguishing Mouse Strains by Proteomic Analysis of Pelage Hair

Rice, Robert H.
Rocke, David M.
Tsai, Hua-Sheng
Silva, Kathleen A.
Lee, Young Jin
Sundberg, John P.

September 2009

AKR/J mice display a hair interior defect (hid) phenotype for which the molecular basis is unknown. ...

Distinguishing mouse strains by proteomic analysis of pelage hair.

Rice, R H
Rocke, D M
Tsai, H S
Silva, K A
Lee, Y J
Sundberg, J P

January 2009

AKR/J mice display a hair interior defect (hid) phenotype for which the molecular basis is unknown. ...

Numbers of proteins differing significantly among mouse strains.*

Robert H. Rice (112903)
Katie M. Bradshaw (112908)
Blythe P. Durbin-Johnson (112913)
David M. Rocke (112920)
Richard A. Eigenheer (112927)
Brett S. Phinney (112933)
John P. Sundberg (112938)

December 2012

*Shown in the matrix are the mouse strains, above each of which is the phylogenetic group to whic...

Morphology of hair in normal and mutant laboratory mice.

Sundberg, J P
King, L E

January 2001

Inbred laboratory mice are mammals and therefore are haired. Mice develop many of the same diseases ...

Mouse models for the study of human hair loss.

Sundberg, J P
King, L E

January 1996

A comparison has been presented to illustrate many of the similarities in patterns of disease betwee...

Proteomic analysis of hair shafts from monozygotic twins: Expression profiles and genetically variant peptides.

Wu, Pei-Wen
Mason, Katelyn E
Durbin-Johnson, Blythe P
Salemi, Michelle
Phinney, Brett S
Rocke, David M
Parker, Glendon J
Rice, Robert H

July 2017

Forensic association of hair shaft evidence with individuals is currently assessed by comparing mito...

Excavating the Genome: Large-Scale Mutagenesis Screening for the Discovery of New Mouse Models

Sundberg, John P.
Dadras, Soheil S.
Silva, Kathleen A.
Kennedy, Victoria E.
Murray, Stephen A.
Denegre, James M.
Schofield, Paul N.
King, Lloyd E.
Wiles, Michael V.
Herbert Pratt, C.

November 2015

Technology now exists for rapid screening of mutated laboratory mice to identify phenotypes associat...

Crisp1 and alopecia areata in C3H/HeJ mice.

Sundberg, John P
Awgulewitsch, Alexander
Pruett, Nathan D
Potter, Christopher S
Silva, Kathleen A
Stearns, Timothy M
Sundberg, Beth A
Muñoz, Mariana Weigel
Cuasnicu, Patricia S
King, Lloyd E
Rice, Robert H

December 2014

Alopecia areata (AA), a cell mediated autoimmune disease, is the second most common form of hair los...

Differential Expression of Proteins Associated with the Hair Follicle Cycle - Proteomics and Bioinformatics Analyses

Lei Wang (6656)
Wenrong Xu (110863)
Lei Cao (134409)
Tian Tian (170088)
Mifang Yang (845048)
Zhongming Li (683238)
Fengfeng Ping (845049)
Weixin Fan (845050)

January 2016

<div>Hair follicle cycling can be divided into the following three stages: anagen, catagen, and t...

Proteins discriminating among fractionated hair shafts of mouse strains surveyed.*

Robert H. Rice (112903)
Katie M. Bradshaw (112908)
Blythe P. Durbin-Johnson (112913)
David M. Rocke (112920)
Richard A. Eigenheer (112927)
Brett S. Phinney (112933)
John P. Sundberg (112938)

December 2012

*The insoluble particulate (Part) and solubilized (Sol) fractions were analyzed separately and th...

Optimal processing for proteomic genotyping of single human hairs.

Goecker, Zachary C
Salemi, Michelle R
Karim, Noreen
Phinney, Brett S
Rice, Robert H
Parker, Glendon J

July 2020

The use of hair evidence for human identification is undergoing considerable improvement through the...

Genetic characterization of newly developed mutant hairless mice “HRCDRI”

Maity, B
Guru, P Y

October 2004

546-551 Newly developed mutant hairless mice and two outbred mouse strains (Park and Swiss) were exa...

Protein Database and Quantitative Analysis Considerations when Integrating Genetics and Proteomics to Compare Mouse Strains

Suzanne S. Fei (1278480)
Phillip A. Wilmarth (231403)
Robert J. Hitzemann (1278486)
Shannon K. McWeeney (226756)
John K. Belknap (1278483)
Larry L. David (231405)

December 2015

Decades of genetics research comparing mouse strains has identified many regions of the genome assoc...

Differentiating Inbred Mouse Strains from Each Other and Those with Single Gene Mutations Using Hair Proteomics

Abstract

Extracted data

Differentiating Inbred Mouse Strains from Each Other and Those with Single Gene Mutations Using Hair Proteomics

Abstract

Extracted data

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