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Showing 1-12 of 12 results for "HPA039131" within Papers
Julia A Pinette et al.
Molecular biology of the cell, 30(1), 108-118 (2018-11-08)
Transporting epithelial cells optimize their morphology for solute uptake by building an apical specialization: a dense array of microvilli that serves to increase membrane surface area. In the intestinal tract, individual cells build thousands of microvilli, which pack tightly to
Meredith L Weck et al.
Current biology : CB, 26(20), 2717-2728 (2016-10-26)
Transporting epithelial cells interact with the luminal environment using a tightly packed array of microvilli known as the brush border. During intestinal epithelial differentiation, microvillar packing and organization are driven by cadherin-dependent adhesion complexes that localize to the distal tips
Myoung Soo Choi et al.
The Journal of biological chemistry, 295(28), 9281-9296 (2020-03-27)
Specialized transporting and sensory epithelial cells employ homologous protocadherin-based adhesion complexes to remodel their apical membrane protrusions into organized functional arrays. Within the intestine, the nutrient-transporting enterocytes utilize the intermicrovillar adhesion complex (IMAC) to assemble their apical microvilli into an
Maura J Graves et al.
The Journal of biological chemistry, 295(36), 12588-12604 (2020-07-09)
Nutrient-transporting enterocytes interact with their luminal environment using a densely packed collection of apical microvilli known as the brush border. Assembly of the brush border is controlled by the intermicrovillar adhesion complex (IMAC), a protocadherin-based complex found at the tips
ANKS4B Is Essential for Intermicrovillar Adhesion Complex Formation.
Crawley SW
Developmental Cell, 36, 190-200 (2016)
Myosin-VIIb, a novel unconventional myosin, is a constituent of microvilli in transporting epithelia.
Chen ZY
Genomics, 72, 285-296 (2001)
Scott W Crawley et al.
Developmental cell, 36(2), 190-200 (2016-01-27)
Transporting and sensory epithelial cells shape apical specializations using protocadherin-based adhesion. In the enterocyte brush border, protocadherin function requires a complex of cytoplasmic binding partners, although the composition of this complex and logic governing its assembly remain poorly understood. We
Sarah A Dooley et al.
American journal of physiology. Gastrointestinal and liver physiology, 323(5), G501-G510 (2022-10-12)
Intestinal enterocytes have an elaborate apical membrane of actin-rich protrusions known as microvilli. The organization of microvilli is orchestrated by the intermicrovillar adhesion complex (IMAC), which connects the distal tips of adjacent microvilli. The IMAC is composed of CDHR2 and
Meredith L Weck et al.
The Journal of biological chemistry, 295(48), 16191-16206 (2020-10-15)
Solute transporting epithelial cells build arrays of microvilli on their apical surface to increase membrane scaffolding capacity and enhance function potential. In epithelial tissues such as the kidney and gut, microvilli are length-matched and assembled into tightly packed "brush borders,"
Samaneh Matoo et al.
Molecular biology of the cell, 32(21), ar30-ar30 (2021-09-03)
MyTH4-FERM (MF) myosins evolved to play a role in the creation and function of a variety of actin-based membrane protrusions that extend from cells. Here we performed an analysis of the MF myosins, Myo7A, Myo7B, and Myo10, to gain insight
Myosin-7b Promotes Distal Tip Localization of the Intermicrovillar Adhesion Complex.
Weck ML
Current Biology, 26, 2717-2728 (2016)
Bernadette Mödl et al.
EMBO reports, 24(10), e57084-e57084 (2023-09-11)
Intestinal epithelial cells are covered by the brush border, which consists of densely packed microvilli. The Intermicrovillar Adhesion Complex (IMAC) links the microvilli and is required for proper brush border organization. Whether microvillus crosslinking is involved in the intestinal barrier
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