Self-Assembling Peptide-Polymer Hydrogels Designed From the Coiled Coil Region of Fibrin

Melanophilin (Mlph) regulates retention of melanosomes at the peripheral actin cytoskeleton of melanocytes, a process essential for normal mammalian pigmentation. Mlph is proposed to be a modular protein binding the melanosome-associated protein Rab27a, Myosin Va (MyoVa), actin, and microtubule end-binding protein (EB1), via distinct N-terminal Rab27a-binding domain (R27BD), medial MyoVa-binding domain (MBD), and C-terminal actin-binding domain (ABD), respectively. We developed a novel melanosome transport assay using a Mlph-null cell line to study formation of the active Rab27a:Mlph:MyoVa complex. Recruitment of MyoVa to melanosomes correlated with rescue of melanosome transport and required intact R27BD together with MBD exon F–binding region (EFBD) and unexpectedly a potential coiled-coil forming sequence within ABD. In vitro binding studies indicate that the coiled-coil region enhances binding of MyoVa by Mlph MBD. Other regions of Mlph reported to interact with MyoVa globular tail, actin, or EB1 are not essential for melanosome transport rescue. The strict correlation between melanosomal MyoVa recruitment and rescue of melanosome distribution suggests that stable interaction with Mlph and MyoVa activation are nondissociable events. Our results highlight the importance of the coiled-coil region together with R27BD and EFBD regions of Mlph in the formation of the active melanosomal Rab27a-Mlph-MyoVa complex.

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Catalytically active inclusion bodies (CatIBs) induced by terminally attached self-assembling coiled-coil domains: To enhance the stability of (R)-hydroxynitrile lyase

Enzyme and Microbial Technology ◽

10.1016/j.enzmictec.2021.109915 ◽

2022 ◽

Vol 153 ◽

pp. 109915

Author(s):

Xiaolin Pei ◽

Jiapao Wang ◽

Haoteng Zheng ◽

Qinjie Xiao ◽

Anming Wang ◽

...

Keyword(s):

Inclusion Bodies ◽

Coiled Coil ◽

Hydroxynitrile Lyase ◽

Self Assembling ◽

Active Inclusion Bodies ◽

Catalytically Active ◽

The Stability

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Over-Production, Crystallization, and Preliminary X-ray Crystallographic Analysis of a Coiled-Coil Region in Human Pericentrin

Crystals ◽

10.3390/cryst7100296 ◽

2017 ◽

Vol 7 (10) ◽

pp. 296

Author(s):

Min Kim ◽

Jeong Park ◽

Yeowon Sim ◽

Doheum Kim ◽

Jeong Sim ◽

...

Keyword(s):

Coiled Coil ◽

Crystallographic Analysis ◽

X Ray ◽

Coiled Coil Region

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Identification of Proteins That Interact with the Central Coiled-Coil Region of the Human Protein Kinase NEK1†

Biochemistry ◽

10.1021/bi034575v ◽

2003 ◽

Vol 42 (51) ◽

pp. 15369-15376 ◽

Cited By ~ 41

Author(s):

Marcelo J. Surpili ◽

Tatiana M. Delben ◽

Jörg Kobarg

Keyword(s):

Protein Kinase ◽

Coiled Coil ◽

Human Protein ◽

Human Protein Kinase ◽

Coiled Coil Region

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A novel natural mutation AαPhe98Ile in the fibrinogen coiled-coil affects fibrinogen function

Thrombosis and Haemostasis ◽

10.1160/th13-04-0267 ◽

2014 ◽

Vol 111 (01) ◽

pp. 79-87 ◽

Cited By ~ 5

Author(s):

Zuzana Riedelová-Reicheltová ◽

Roman Kotlín ◽

Jiří Suttnar ◽

Věra Geierová ◽

Tomáš Riedel ◽

...

Keyword(s):

Platelet Aggregation ◽

Coiled Coil ◽

Fibrin Clot ◽

Coiled Coil Region ◽

Platelet Aggregometry ◽

Sds Page ◽

Lysis Rate ◽

Thrombotic Complications ◽

Natural Mutation ◽

And Function

SummaryThe aim of this study was to investigate the structure and function of fibrinogen obtained from a patient with normal coagulation times and idiopathic thrombophilia. This was done by SDS-PAGE and DNA sequence analyses, scanning electron microscopy, fibrinopeptide release, fibrin polymerisation initiated by thrombin and reptilase, fibrinolysis, and platelet aggregometry. A novel heterozygous point mutation in the fibrinogen Aα chain, Phe98 to Ile, was found and designated as fibrinogen Vizovice. The mutation, which is located in the RGDF sequence (Aα 95–98) of the fibrinogen coiled-coil region, significantly affected fibrin clot morphology. Namely, the clot formed by fibrinogen Vizovice contained thinner and curled fibrin fibers with reduced length. Lysis of the clots prepared from Vizovice plasma and isolated fibrinogen were found to be impaired. The lysis rate of Vizovice clots was almost four times slower than the lysis rate of control clots. In the presence of platelets agonists the mutant fibrinogen caused increased platelet aggregation. The data obtained show that natural mutation of Phe98 to Ile in the fibrinogen Aα chain influences lateral aggregation of fibrin protofibrils, fibrinolysis, and platelet aggregation. They also suggest that delayed fibrinolysis, together with the abnormal fibrin network morphology and increased platelet aggregation, may be the direct cause of thrombotic complications in the patient associated with pregnancy loss.

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Peroxisomes move by hitchhiking on early endosomes using the novel linker protein PxdA

10.1101/034231 ◽

2015 ◽

Cited By ~ 1

Author(s):

John Salogiannis ◽

Martin J. Egan ◽

Samara L. Reck-Peterson

Keyword(s):

Molecular Motors ◽

Intracellular Transport ◽

Coiled Coil ◽

Leading Edge ◽

Time Lapse ◽

Early Endosome ◽

Organelle Transport ◽

The Novel ◽

Coiled Coil Region ◽

Early Endosomes

Eukaryotic cells use microtubule-based intracellular transport for the delivery of many subcellular cargos, including organelles. The canonical view of organelle transport is that organelles directly recruit molecular motors via cargo-specific adaptors. In contrast to this view, we show here that peroxisomes move by hitchhiking on early endosomes, an organelle that directly recruits the transport machinery. Using the filamentous fungus Aspergillus nidulans we find that hitchhiking is mediated by a novel endosome-associated linker protein, PxdA. PxdA is required for normal distribution and long-range movement of peroxisomes, but not early endosomes or nuclei. Using simultaneous time-lapse imaging we find that early endosome-associated PxdA localizes to the leading edge of moving peroxisomes. We identify a coiled-coil region within PxdA that is necessary and sufficient for early endosome localization and peroxisome distribution and motility. These results present a new mechanism of microtubule-based organelle transport where peroxisomes hitchhike on early endosomes and identify PxdA as the novel linker protein required for this coupling.

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Native chick laminin-4 containing the beta 2 chain (s-laminin) promotes motor axon growth.

The Journal of Cell Biology ◽

10.1083/jcb.135.6.1583 ◽

1996 ◽

Vol 135 (6) ◽

pp. 1583-1592 ◽

Cited By ~ 58

Author(s):

R Brandenberger ◽

R A Kammerer ◽

J Engel ◽

M Chiquet

Keyword(s):

Basement Membrane ◽

Neuromuscular Junction ◽

Coiled Coil ◽

Axon Growth ◽

Motor Axon ◽

Specific Sequence ◽

Recombinant Fragment ◽

Structural Context ◽

Coiled Coil Region ◽

Beta 2

After denervation of muscle, motor axons reinnervate original synaptic sites. A recombinant fragment of the synapse specific laminin beta 2 chain (s-laminin) was reported to inhibit motor axon growth. Consequently, a specific sequence (leucine-arginine-glutamate, LRE) of the laminin beta 2 chain was proposed to act as a stop signal and to mediate specific reinnervation at the neuromuscular junction (Porter, B.E., J. Weis, and J.R. Sanes. 1995. Neuron. 14:549-559). We demonstrate here that native chick laminin-4, which contains the beta 2 chain and is present in the synaptic basement membrane, does not inhibit but rather promotes motor axon growth. In native heterotrimeric laminin, the LRE sequence of the beta 2 chain is found in a triple coiled-coil region that is formed by all three subunits. We show here that the effect of LRE depends on the structural context. Whereas a recombinant randomly coiled LRE peptide indeed inhibited outgrowth by chick motoneurons, a small recombinant triple coiled-coil protein containing this sequence did not.

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Oligomerization of HEXIM1 via 7SK snRNA and coiled-coil region directs the inhibition of P-TEFb

Nucleic Acids Research ◽

10.1093/nar/gki997 ◽

2005 ◽

Vol 33 (22) ◽

pp. 7000-7010 ◽

Cited By ~ 44

Author(s):

D. Blazek

Keyword(s):

Coiled Coil ◽

Coiled Coil Region

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Coiled-Coils: The Molecular Zippers that Self-Assemble Protein Nanostructures

International Journal of Molecular Sciences ◽

10.3390/ijms21103584 ◽

2020 ◽

Vol 21 (10) ◽

pp. 3584 ◽

Cited By ~ 1

Author(s):

Won Min Park

Keyword(s):

Modular Design ◽

Coiled Coil ◽

Molecular Complexes ◽

Building Blocks ◽

Structural Features ◽

Coiled Coils ◽

Design Strategies ◽

Protein Motifs ◽

Self Assembling ◽

Current Design

Coiled-coils, the bundles of intertwined helical protein motifs, have drawn much attention as versatile molecular toolkits. Because of programmable interaction specificity and affinity as well as well-established sequence-to-structure relationships, coiled-coils have been used as subunits that self-assemble various molecular complexes in a range of fields. In this review, I describe recent advances in the field of protein nanotechnology, with a focus on programming assembly of protein nanostructures using coiled-coil modules. Modular design approaches to converting the helical motifs into self-assembling building blocks are described, followed by a discussion on the molecular basis and principles underlying the modular designs. This review also provides a summary of recently developed nanostructures with a variety of structural features, which are in categories of unbounded nanostructures, discrete nanoparticles, and well-defined origami nanostructures. Challenges existing in current design strategies, as well as desired improvements for controls over material properties and functionalities for applications, are also provided.

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