Highway to hell‐thy meiotic divisions: Chromosome passenger complex functions driven by microtubules

The human Nup107-160 nucleoporin complex plays a major role in formation of the nuclear pore complex and is localized to kinetochores in mitosis. Here we report that Seh1, a component of the Nup107-160 complex, functions in chromosome alignment and segregation by regulating the centromeric localization of Aurora B and other chromosome passenger complex proteins. Localization of CENP-E is not affected by Seh1 depletion and analysis by electron microscopy showed that microtubule kinetochore attachments are intact. Seh1-depleted cells show impaired Aurora B localization, which results in severe defects in biorientation and organization of the spindle midzone and midbody. Our results indicate that a major function of the Nup107 complex in mitosis is to ensure the proper localization of the CPC at the centromere.

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A Monoclonal Antibody to the Human Platelet Glycoprotein II b/III a Complex Induces Platelet Activation

Thrombosis and Haemostasis ◽

10.1055/s-0038-1647637 ◽

1988 ◽

Vol 60 (01) ◽

pp. 068-074 ◽

Cited By ~ 33

Author(s):

Piet W Modderman ◽

Han G Huisman ◽

Jan A van Mourik ◽

Albert E G Kr von dem Borne

Keyword(s):

Human Platelet ◽

Adenosine Diphosphate ◽

Dense Granule ◽

Platelet Glycoprotein ◽

Activated Platelets ◽

Complex Functions ◽

Slow Aggregation ◽

Irreversible Aggregation ◽

Platelet Release ◽

Aggregation Of Platelets

SummaryThe platelet glycoprotein (GP) IIb/IIIa complex functions as the receptor for fibrinogen on activated platelets. The effects of two anti-GPIIb/IIIa monoclonal antibodies on platelet function were studied. These antibodies, 6C9 and C17, recognized different epitopes, which were exclusively present on the undissociated GPIIb/IIIa complex. Whereas C17 inhibited the binding of fibrinogen to platelets and platelet aggregation induced by adenosine diphosphate (ADP) or collagen, 6C9 caused irreversible aggregation of platelets, both in the presence and absence of extracellular fibrinogen. When incubated with unstirred (nonaggregating) platelets, 6C9 induced release of alpha and dense granule-constituents as well as binding of 125I-fibrinogen to platelets. The latter was evidently mediated in part by platelet-derived ADP, since it was inhibited to a large extent by apyrase, the ADP-hydrolyzing enzyme. F(ab’)2 fragments of 6C9 did not induce platelet-release reactions but caused (slow) aggregation of platelets in the presence of extracellular fibrinogen.These results indicate that binding of an antibody to a specific site on the platelet GPIIb/IIIa complex may cause fibrinogen-mediated aggregation. The Fc part of the platelet-bound antibody appears to be involved in the induction of platelet release.

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Combinatorial Peptide Libraries for Selecting Inorganic-Binding Proteins: A Step in Molecular Biomimetics

MRS Proceedings ◽

10.1557/proc-773-n8.1 ◽

2003 ◽

Vol 773 ◽

Cited By ~ 1

Author(s):

C. Tamerler ◽

S. Dinçer ◽

D. Heidel ◽

N. Karagûler ◽

M. Sarikaya

Keyword(s):

Binding Proteins ◽

Building Blocks ◽

Molecular Engineering ◽

Inorganic Materials ◽

Combinatorial Peptide Libraries ◽

Self Assembling ◽

Complex Functions ◽

Recent Developments ◽

Specific Proteins ◽

Molecular Biomimetics

AbstractProteins, one of the building blocks in organisms, not only control the assembly in biological systems but also provide most of their complex functions. It may be possible to assemble materials for practical technological applications utilizing the unique advantages provided by proteins. Here we discuss molecular biomimetic pathways in the quest for imitating biology at the molecular scale via protein engineering. We use combinatorial biology protocols to select short polypeptides that have affinity to inorganic materials and use them in assembling novel hybrid materials. We give an overview of some of the recent developments of molecular engineering towards this goal. Inorganic surface specific proteins were identified by using cell surface and phage display technologies. Examples of metal and metal oxide specific polypeptides were represented with an emphasis on certain level of specificities. The recognition and self assembling characteristics of these inorganic-binding proteins would be employed in develeopment of hybrid multifunctional materials for novel bio- and nano-technological applications.

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Faculty Opinions recommendation of The COPI complex functions in nuclear envelope breakdown and is recruited by the nucleoporin Nup153.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1015508.197253 ◽

2003 ◽

Author(s):

Murray Stewart

Keyword(s):

Nuclear Envelope ◽

Nuclear Envelope Breakdown ◽

Complex Functions

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Faculty Opinions recommendation of A DNA repair complex functions as an Oct4/Sox2 coactivator in embryonic stem cells.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.13339980.14707079 ◽

2011 ◽

Author(s):

Tony Weil

Keyword(s):

Stem Cells ◽

Dna Repair ◽

Embryonic Stem Cells ◽

Embryonic Stem ◽

Complex Functions

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Faculty Opinions recommendation of The Rad50 coiled-coil domain is indispensable for Mre11 complex functions.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.717967809.793467391 ◽

2012 ◽

Author(s):

John Tainer

Keyword(s):

Coiled Coil ◽

Coiled Coil Domain ◽

Mre11 Complex ◽

Complex Functions

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Matrix Metalloproteinases in Invertebrates

Protein and Peptide Letters ◽

10.2174/0929866527666200429110945 ◽

2020 ◽

Vol 27 (11) ◽

pp. 1068-1081

Author(s):

Xi Liu ◽

Dongwu Liu ◽

Yangyang Shen ◽

Mujie Huang ◽

Lili Gao ◽

...

Keyword(s):

Matrix Metalloproteinases ◽

Immune Responses ◽

Theoretical Basis ◽

Regulatory Mechanism ◽

Structure And Function ◽

Catalytic Domains ◽

Physiological Processes ◽

Disease Occurrence ◽

Complex Functions ◽

And Function

Matrix Metalloproteinases (MMPs) belong to a family of metal-dependent endopeptidases which contain a series of conserved pro-peptide domains and catalytic domains. MMPs have been widely found in plants, animals, and microorganisms. MMPs are involved in regulating numerous physiological processes, pathological processes, and immune responses. In addition, MMPs play a key role in disease occurrence, including tumors, cardiovascular diseases, and other diseases. Compared with invertebrate MMPs, vertebrate MMPs have diverse subtypes and complex functions. Therefore, it is difficult to study the function of MMPs in vertebrates. However, it is relatively easy to study invertebrate MMPs because there are fewer subtypes of MMPs in invertebrates. In the present review, the structure and function of MMPs in invertebrates were summarized, which will provide a theoretical basis for investigating the regulatory mechanism of MMPs in invertebrates.

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The NALCN Channel Regulator UNC-80 Functions in a Subset of Interneurons To Regulate Caenorhabditis elegans Reversal Behavior

G3 Genes|Genome|Genetics ◽

10.1534/g3.119.400692 ◽

2019 ◽

Vol 10 (1) ◽

pp. 199-210 ◽

Cited By ~ 1

Author(s):

Chuanman Zhou ◽

Jintao Luo ◽

Xiaohui He ◽

Qian Zhou ◽

Yunxia He ◽

...

Keyword(s):

Plant Hormone ◽

Neuronal Excitability ◽

Resting Membrane Potential ◽

Loss Of Function ◽

Wild Type ◽

C Elegans ◽

Link Type ◽

Complex Functions ◽

And Function ◽

Multiple Loss

NALCN (Na+leak channel, non-selective) is a conserved, voltage-insensitive cation channel that regulates resting membrane potential and neuronal excitability. UNC79 and UNC80 are key regulators of the channel function. However, the behavioral effects of the channel complex are not entirely clear and the neurons in which the channel functions remain to be identified. In a forward genetic screen for C. elegans mutants with defective avoidance response to the plant hormone methyl salicylate (MeSa), we isolated multiple loss-of-function mutations in unc-80 and unc-79. C. elegans NALCN mutants exhibited similarly defective MeSa avoidance. Interestingly, NALCN, unc-80 and unc-79 mutants all showed wild type-like responses to other attractive or repelling odorants, suggesting that NALCN does not broadly affect odor detection or related forward and reversal behaviors. To understand in which neurons the channel functions, we determined the identities of a subset of unc-80-expressing neurons. We found that unc-79 and unc-80 are expressed and function in overlapping neurons, which verified previous assumptions. Neuron-specific transgene rescue and knockdown experiments suggest that the command interneurons AVA and AVE and the anterior guidepost neuron AVG can play a sufficient role in mediating unc-80 regulation of the MeSa avoidance. Though primarily based on genetic analyses, our results further imply that MeSa might activate NALCN by direct or indirect actions. Altogether, we provide an initial look into the key neurons in which the NALCN channel complex functions and identify a novel function of the channel in regulating C. elegans reversal behavior through command interneurons.

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Model-guided design of mammalian genetic programs

Science Advances ◽

10.1126/sciadv.abe9375 ◽

2021 ◽

Vol 7 (8) ◽

pp. eabe9375

Author(s):

J. J. Muldoon ◽

V. Kandula ◽

M. Hong ◽

P. S. Donahue ◽

J. D. Boucher ◽

...

Keyword(s):

Mammalian Cells ◽

Computational Models ◽

Biological Complexity ◽

Genetic Circuits ◽

Cellular Functions ◽

High Performing ◽

Design Objective ◽

Complex Functions ◽

Mammalian Genetic ◽

Analog Processing

Genetically engineering cells to perform customizable functions is an emerging frontier with numerous technological and translational applications. However, it remains challenging to systematically engineer mammalian cells to execute complex functions. To address this need, we developed a method enabling accurate genetic program design using high-performing genetic parts and predictive computational models. We built multifunctional proteins integrating both transcriptional and posttranslational control, validated models for describing these mechanisms, implemented digital and analog processing, and effectively linked genetic circuits with sensors for multi-input evaluations. The functional modularity and compositional versatility of these parts enable one to satisfy a given design objective via multiple synonymous programs. Our approach empowers bioengineers to predictively design mammalian cellular functions that perform as expected even at high levels of biological complexity.

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The Pleiotropic Function of Human Sirtuins as Modulators of Metabolic Pathways and Viral Infections

Cells ◽

10.3390/cells10020460 ◽

2021 ◽

Vol 10 (2) ◽

pp. 460

Author(s):

Mohammed Hamed Alqarni ◽

Ahmed Ibrahim Foudah ◽

Magdy Mohamed Muharram ◽

Nikolaos E. Labrou

Keyword(s):

Metabolic Pathways ◽

Histone Deacetylases ◽

Viral Infections ◽

Cell Physiology ◽

Functional Roles ◽

Regulatory Processes ◽

Complex Functions ◽

Natural Polyphenol ◽

Antiviral Targets

Sirtuins (SIRTs) are nicotinamide adenine dinucleotide-dependent histone deacetylases that incorporate complex functions in the mechanisms of cell physiology. Mammals have seven distinct members of the SIRT family (SIRT1-7), which play an important role in a well-maintained network of metabolic pathways that control and adapt the cell to the environment, energy availability and cellular stress. Until recently, very few studies investigated the role of SIRTs in modulating viral infection and progeny. Recent studies have demonstrated that SIRT1 and SIRT2 are promising antiviral targets because of their specific connection to numerous metabolic and regulatory processes affected during infection. In the present review, we summarize some of the recent progress in SIRTs biochemistry and their emerging function as antiviral targets. We also discuss the potential of natural polyphenol-based SIRT modulators to control their functional roles in several diseases including viral infections.

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