Saima S. Mir scite author profile

Dystrophin protein in association with several other cellular proteins and glycoproteins leads to the formation of a large multifaceted protein complex at the cell membrane referred to as dystrophin glycoprotein complex (DGC), that serves distinct functions in cell signaling and maintaining the membrane stability as well as integrity. In accordance with this, several findings suggest exquisite role of DGC in signaling pathways associated with cell development and/or maintenance of homeostasis. In the present review, we summarize the established facts about the various components of this complex with emphasis on recent insights into specific contribution of the DGC in cell signaling at the membrane. We have also discussed the recent advances made in exploring the molecular associations of DGC components within the cells and the functional implications of these interactions. Our review would help to comprehend the composition, role, and functioning of DGC and may lead to a deeper understanding of its role in several human diseases.

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Dynamic actin remodeling in response to lysophosphatidic acid

Mir

Bhat

2020

Journal of Biomolecular Structure and Dynamics

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Characterization and Expression Profiling of KRTAP9.2 at Different Developmental Stages of Pashmina Fiber in Changthangi Goat

Bhat

Iqbal

Mir

et al. 2022

IJAR

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Background: Keratin-associated protein’s (KRTAPs) are the major constituent proteins of cashmere fibre and have been implicated to have an important effect on the quality traits of this commercially valuable fibre. The objective of the present study was to determine the molecular characteristics of KRTAP9.2 gene in Pashmina (Cashmere) goat, known as Changthangi breed in J and K, India and well known for its finest fiber quality. Methods: We have studied the KRTAP9.2 gene expression status in hair follicles at different fiber development stages viz Anagen (growth) and Telogen (rest) in Changthangi goats of Kashmir and Ladakh region by performing quantitative Real Time PCR from fresh skin biopsies using gene specific primers. Furthermore, KRTAP9.2 structural models were generated and validated using various Bioinformatic tools. Result: Phylogenetic studies reveal close relation of KRTAP9.2 gene with Pantholops hodgsonii KRTAP9.2 (XM-005964828.1) and Ovis aries musimon KRTAP9.9 (XM-012152535.1). In our study we predicted a total of 20 KRTAP9.2 protein structures by QUARK and LOMET server and 5 structures by RaptorX, moreover, the validity of predicted structures was checked by using different parameters like RMSD value, C-Score, TM-value and ramachandran values, all parameters suggested structure predicted by RaptorX as better in our case. Real time PCR results showed expression of KRTAP9.2 in Pashmina hair follicles with a higher expression at the Telogen stage as compared to the Anagen stage. Owing to the structural importance of KRTAPs, such studies are indispensable for deciphering the molecular mechanism of pashmina growth which in turn will improve production, quality and diversity of pashmina fiber.

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Saima S. Mir

ABC of multifaceted dystrophin glycoprotein complex (DGC)

Dynamic actin remodeling in response to lysophosphatidic acid

Characterization and Expression Profiling of KRTAP9.2 at Different Developmental Stages of Pashmina Fiber in Changthangi Goat

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