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Journal of Huntington'S Disease
|
September 14, 2020
Large Animal Models of Huntington's Disease: What We Have Learned and Where We Need to Go Next
David Howland, Zdenka Ellederova, Neil Aronin, et al.
Journal of Neuroscience Research
|
July 12, 2002
Striatal neurochemical changes in transgenic models of Huntington's disease
Marjorie A Ariano, Neil Aronin, Marian Difiglia, et al.
Plos One
|
February 16, 2019
Huntingtin associates with the actin cytoskeleton and α-actinin isoforms to influence stimulus dependent morphology changes
Adelaide Tousley, Maria Iuliano, Elizabeth Weisman, et al.
Current Biology : CB
|
April 14, 2009
Five siRNAs targeting three SNPs may provide therapy for three-quarters of Huntington's disease patients
Edith L Pfister, Lori Kennington, Juerg Straubhaar, et al.
Molecular Therapy. Nucleic Acids
|
June 19, 2017
Safe and Efficient Silencing with a Pol II, but Not a Pol lII, Promoter Expressing an Artificial miRNA Targeting Human Huntingtin
Edith L Pfister, Kathryn O Chase, Huaming Sun, et al.
Nature Methods
|
February 11, 2014
A synthetic luciferin improves bioluminescence imaging in live mice
Melanie S Evans, Joanna P Chaurette, Spencer T Adams, et al.
Journal of Huntington'S Disease
|
October 8, 2015
Safety of Striatal Infusion of siRNA in a Transgenic Huntington's Disease Mouse Model
Emily Johnson, Kathryn Chase, Sarah McGowan, et al.
Journal of Huntington'S Disease
|
June 18, 2016
Effects of Exogenous NUB1 Expression in the Striatum of HDQ175/Q7 Mice
Petr Vodicka, Kathryn Chase, Maria Iuliano, et al.
Plos Genetics
|
September 13, 2006
Designing siRNA that distinguish between genes that differ by a single nucleotide
Dianne S Schwarz, Hongliu Ding, Lori Kennington, et al.
Neurobiology of Disease
|
January 21, 2006
Lysosomal proteases are involved in generation of N-terminal huntingtin fragments
Yun J Kim, Ellen Sapp, Benjamin G Cuiffo, et al.
Page
of 11
Search research articles
Search
Showing results (31-40 of 109) with videos related to
Sort By:
Page
of 11
Journal of Huntington'S Disease
|
September 14, 2020
Large Animal Models of Huntington's Disease: What We Have Learned and Where We Need to Go Next
David Howland, Zdenka Ellederova, Neil Aronin, et al.
Journal of Neuroscience Research
|
July 12, 2002
Striatal neurochemical changes in transgenic models of Huntington's disease
Marjorie A Ariano, Neil Aronin, Marian Difiglia, et al.
Plos One
|
February 16, 2019
Huntingtin associates with the actin cytoskeleton and α-actinin isoforms to influence stimulus dependent morphology changes
Adelaide Tousley, Maria Iuliano, Elizabeth Weisman, et al.
Current Biology : CB
|
April 14, 2009
Five siRNAs targeting three SNPs may provide therapy for three-quarters of Huntington's disease patients
Edith L Pfister, Lori Kennington, Juerg Straubhaar, et al.
Molecular Therapy. Nucleic Acids
|
June 19, 2017
Safe and Efficient Silencing with a Pol II, but Not a Pol lII, Promoter Expressing an Artificial miRNA Targeting Human Huntingtin
Edith L Pfister, Kathryn O Chase, Huaming Sun, et al.
Nature Methods
|
February 11, 2014
A synthetic luciferin improves bioluminescence imaging in live mice
Melanie S Evans, Joanna P Chaurette, Spencer T Adams, et al.
Journal of Huntington'S Disease
|
October 8, 2015
Safety of Striatal Infusion of siRNA in a Transgenic Huntington's Disease Mouse Model
Emily Johnson, Kathryn Chase, Sarah McGowan, et al.
Journal of Huntington'S Disease
|
June 18, 2016
Effects of Exogenous NUB1 Expression in the Striatum of HDQ175/Q7 Mice
Petr Vodicka, Kathryn Chase, Maria Iuliano, et al.
Plos Genetics
|
September 13, 2006
Designing siRNA that distinguish between genes that differ by a single nucleotide
Dianne S Schwarz, Hongliu Ding, Lori Kennington, et al.
Neurobiology of Disease
|
January 21, 2006
Lysosomal proteases are involved in generation of N-terminal huntingtin fragments
Yun J Kim, Ellen Sapp, Benjamin G Cuiffo, et al.
Page
of 11