Publications by authors named "S F Previs"
Quantifying protein kinetics in vivo: influence of precursor dynamics on product labeling.
Am J Physiol Endocrinol Metab
February 2025
Protein kinetics can be quantified by coupling stable isotope tracer methods with mass spectrometry readouts; however, interconnected decision points in the experimental design affect the complexity of the workflow and impact data interpretations. For example, choosing between a single bolus (pulse-chase) or a continuous exposure protocol influences subsequent decisions regarding when to measure and how to model the temporal labeling of a target protein. Herein, we examine the merits of in vivo tracer protocols, and we direct attention toward stable isotope tracer experiments that rely on administering a single bolus since these are generally more practical to use as compared with continuous administration protocols.
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- Myosin-binding protein H (MyBP-H) is similar to MyBP-C and is found in skeletal muscle but has an unclear function, particularly in adult fast-twitch muscle.
- Research indicates that MyBP-H is highly expressed in prenatal rat fast-twitch muscles and larval zebrafish, hinting at its role in muscle development, which is being further investigated.
- While MyBP-H lacks key domains found in MyBP-C that modulate muscle contractility, experiments show it may function similarly by acting as a molecular "brake," raising new questions about muscle development roles.
Article Synopsis
- Kinesin-1 motors transport vesicles through a complex microtubule network, with research focusing on how these cargoes navigate intersections.
- Multiple kinesin motors engage a lipid-based cargo, but only a few (typically up to three) are actively working on it at any time.
- The study developed a mathematical model that explains the observed behaviors at 2D and 3D intersections, revealing a consistent mechanism for cargo navigation that is similar across different motor proteins like myosin Va.
Myosin-binding protein H (MyBP-H) is a component of the vertebrate skeletal muscle sarcomere with sequence and domain homology to myosin-binding protein C (MyBP-C). Whereas skeletal muscle isoforms of MyBP-C (fMyBP-C, sMyBP-C) modulate muscle contractility via interactions with actin thin filaments and myosin motors within the muscle sarcomere "C-zone," MyBP-H has no known function. This is in part due to MyBP-H having limited expression in adult fast-twitch muscle and no known involvement in muscle disease.
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