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Arhgap39

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https://www.readbyqxmd.com/read/28368047/important-roles-of-vilse-in-dendritic-architecture-and-synaptic-plasticity
#1
Jin-Yu Lee, Li-Jen Lee, Chih-Chen Fan, Ho-Ching Chang, Hsin-An Shih, Ming-Yuan Min, Mau-Sun Chang
Vilse/Arhgap39 is a Rho GTPase activating protein (RhoGAP) and utilizes its WW domain to regulate Rac/Cdc42-dependent morphogenesis in Drosophila and murine hippocampal neurons. However, the function of Vilse in mammalian dendrite architecture and synaptic plasticity remained unclear. In the present study, we aimed to explore the possible role of Vilse in dendritic structure and synaptic function in the brain. Homozygous knockout of Vilse resulted in premature embryonic lethality in mice. Changes in dendritic complexity and spine density were noticed in hippocampal neurons of Camk2a-Cre mediated forebrain-specific Vilse knockout (VilseΔ/Δ ) mice...
April 3, 2017: Scientific Reports
https://www.readbyqxmd.com/read/26370837/genome-wide-association-study-in-chinese-holstein-cows-reveal-two-candidate-genes-for-somatic-cell-score-as-an-indicator-for-mastitis-susceptibility
#2
Xiao Wang, Peipei Ma, Jianfeng Liu, Qin Zhang, Yuan Zhang, Xiangdong Ding, Li Jiang, Yachun Wang, Yi Zhang, Dongxiao Sun, Shengli Zhang, Guosheng Su, Ying Yu
BACKGROUNDS: Bovine mastitis is a typical inflammatory disease causing seriously economic loss. Genome-wide association study (GWAS) can be a powerful method to promote marker assistant selection of this kind of complex disease. The present study aimed to analyze and identify single nucleotide polymorphisms (SNPs) and candidate genes that associated with mastitis susceptibility traits in Chinese Holstein. RESULTS: Forty eight SNPs were identified significantly associated with mastitis resistance traits in Chinese Holstein cows, which are mainly located on the BTA 14...
2015: BMC Genetics
https://www.readbyqxmd.com/read/24656827/the-cnk2-scaffold-interacts-with-vilse-and-modulates-rac-cycling-during-spine-morphogenesis-in-hippocampal-neurons
#3
Junghwa Lim, Daniel A Ritt, Ming Zhou, Deborah K Morrison
Protein scaffolds play an important role in signal transduction, functioning to facilitate protein interactions and localize key pathway components to specific signaling sites. Connector enhancer of KSR-2 (CNK2) is a neuronally expressed scaffold recently implicated in nonsyndromic, X-linked intellectual disability (NS-XLID) [1-3]. NS-XLID patients have deficits in cognitive function and their neurons often exhibit dendritic spine abnormalities [4], suggesting a role for CNK2 in synaptic signaling and/or spine formation...
March 31, 2014: Current Biology: CB
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