Evolution of metamorphosis: role of environment on expression of mutant nuclear receptors and other signal-transduction proteins

The calcitonin gene-related peptide (CGRP)-receptor component protein (RCP) is a 17-kDa intracellular peripheral membrane protein required for signal transduction at CGRP receptors. To determine the role of RCP in CGRP-mediated signal transduction, RCP was depleted from NIH3T3 cells using antisense strategy. Loss of RCP protein correlated with loss of cAMP production by CGRP in the antisense cells. In contrast, loss of RCP had no effect on CGRP-mediated binding; therefore RCP is not acting as a chaperone for the CGRP receptor. Instead, RCP is a novel signal transduction molecule that couples the CGRP receptor to the cellular signal transduction machinery. RCP thus represents a prototype for a new class of signal transduction proteins that are required for regulation of G protein-coupled receptors.

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THE ROLE OF THEhsp90-BASED CHAPERONE SYSTEM IN SIGNAL TRANSDUCTION BY NUCLEAR RECEPTORS AND RECEPTORS SIGNALING VIA MAP KINASE

The Annual Review of Pharmacology and Toxicology ◽

10.1146/annurev.pharmtox.37.1.297 ◽

1997 ◽

Vol 37 (1) ◽

pp. 297-326 ◽

Cited By ~ 234

Author(s):

William B. Pratt

Keyword(s):

Signal Transduction ◽

Map Kinase ◽

Nuclear Receptors

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The role of effector molecules in signal transduction by PII proteins

Biochemical Society Transactions ◽

10.1042/bst0390189 ◽

2011 ◽

Vol 39 (1) ◽

pp. 189-194 ◽

Cited By ~ 30

Author(s):

Martha Radchenko ◽

Mike Merrick

Keyword(s):

Signal Transduction ◽

Great Majority ◽

Complex Structures ◽

Effector Molecules ◽

Protein Protein Interaction ◽

Wide Range ◽

Pii Proteins ◽

Regulatory Effects ◽

Signal Transduction Proteins

PII proteins are one of the most widely distributed signal transduction proteins in Nature, being ubiquitous in bacteria, archaea and plants. They act by protein–protein interaction to control the activities of a wide range of enzymes, transcription factors and transport proteins, the great majority of which are involved in cellular nitrogen metabolism. The regulatory activities of PII proteins are mediated through their ability to bind the key effector metabolites 2-OG (2-oxoglutarate), ATP and ADP. However, the molecular basis of these regulatory effects remains unclear. Recent advances in the solution of the crystal structures of PII proteins complexed with some of their target proteins, as well as the identification of the ATP/ADP- and 2-OG-binding sites, have improved our understanding of their mode of action. In all of the complex structures solved to date, the flexible T-loops of PII facilitate interaction with the target protein. The effector molecules appear to play a key role in modulating the conformation of the T-loops and thereby regulating the interactions between PII and its targets.

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Dietary zinc deficiency and expression of T lymphocyte signal transduction proteins

Canadian Journal of Physiology and Pharmacology ◽

10.1139/y00-052 ◽

2000 ◽

Vol 78 (10) ◽

pp. 823-828 ◽

Cited By ~ 7

Author(s):

Carla G Taylor ◽

Jeri-Anne C Giesbrecht

Keyword(s):

Signal Transduction ◽

T Lymphocytes ◽

Immune Function ◽

T Lymphocyte ◽

Molecular Level ◽

Immune Dysfunction ◽

Zn Deficiency ◽

Dietary Zinc ◽

Signal Transduction Proteins

Impaired immune function in dietary zinc (Zn) deficiency is characterized in part by reduced lymphocyte numbers (lymphopenia) and depressed cell-mediated (T lymphocyte) immune function, however, the causative mechanisms at the molecular level have not been elucidated. This paper will focus on the role of dietary Zn in T lymphocyte signal transduction, and specifically, the early Zn-dependent steps for phosphorylation and the putative Zn-finger proteins or Zn-metalloenzymes that may be part of the molecular mechanism for explaining immune dysfunction in Zn deficiency. One of the major recent findings is that murine splenic T lymphocyte p56lck expression is elevated in dietary Zn deficiency and caloric deficiency. Based on the known functions of p56lck, it is proposed that elevated p56lck may contribute to altered thymocyte maturation, apoptosis, and lymphopenia in dietary Zn deficiency and other malnutrition syndromes.Key words: zinc, T lymphocytes, signal transduction, immune function.

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Faculty Opinions recommendation of Role of aggregation in rhodopsin signal transduction.

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

10.3410/f.3326957.3015055 ◽

2010 ◽

Author(s):

Kenneth Minneman

Keyword(s):

Signal Transduction

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On the role of the platelet membrane skeleton in mediating signal transduction. Association of GP IIb-IIIa, pp60c-src, pp62c-yes, and the p21ras GTPase-activating protein with the membrane skeleton.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(19)74482-2 ◽

1993 ◽

Vol 268 (34) ◽

pp. 25973-25984 ◽

Cited By ~ 2

Author(s):

J E Fox ◽

L Lipfert ◽

E A Clark ◽

C C Reynolds ◽

C D Austin ◽

...

Keyword(s):

Signal Transduction ◽

Membrane Skeleton ◽

Platelet Membrane ◽

Gtpase Activating Protein

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cROStalk for Life: Uncovering ROS Signaling in Plants and Animal Systems, from Gametogenesis to Early Embryonic Development

Genes ◽

10.3390/genes12040525 ◽

2021 ◽

Vol 12 (4) ◽

pp. 525

Author(s):

Valentina Lodde ◽

Piero Morandini ◽

Alex Costa ◽

Irene Murgia ◽

Ignacio Ezquer

Keyword(s):

Signal Transduction ◽

Signaling Pathways ◽

Analytical Techniques ◽

Antioxidant Systems ◽

Developmental Studies ◽

Science Field ◽

Ros Signaling ◽

Reproductive Processes

This review explores the role of reactive oxygen species (ROS)/Ca2+ in communication within reproductive structures in plants and animals. Many concepts have been described during the last years regarding how biosynthesis, generation products, antioxidant systems, and signal transduction involve ROS signaling, as well as its possible link with developmental processes and response to biotic and abiotic stresses. In this review, we first addressed classic key concepts in ROS and Ca2+ signaling in plants, both at the subcellular, cellular, and organ level. In the plant science field, during the last decades, new techniques have facilitated the in vivo monitoring of ROS signaling cascades. We will describe these powerful techniques in plants and compare them to those existing in animals. Development of new analytical techniques will facilitate the understanding of ROS signaling and their signal transduction pathways in plants and mammals. Many among those signaling pathways already have been studied in animals; therefore, a specific effort should be made to integrate this knowledge into plant biology. We here discuss examples of how changes in the ROS and Ca2+ signaling pathways can affect differentiation processes in plants, focusing specifically on reproductive processes where the ROS and Ca2+ signaling pathways influence the gametophyte functioning, sexual reproduction, and embryo formation in plants and animals. The study field regarding the role of ROS and Ca2+ in signal transduction is evolving continuously, which is why we reviewed the recent literature and propose here the potential targets affecting ROS in reproductive processes. We discuss the opportunities to integrate comparative developmental studies and experimental approaches into studies on the role of ROS/ Ca2+ in both plant and animal developmental biology studies, to further elucidate these crucial signaling pathways.

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Divergence in Coding Sequence and Expression of Different Functional Categories of Immune Genes between Two Wild Rodent Species

Genome Biology and Evolution ◽

10.1093/gbe/evab023 ◽

2021 ◽

Vol 13 (3) ◽

Author(s):

Xiuqin Zhong ◽

Max Lundberg ◽

Lars Råberg

Keyword(s):

Signal Transduction ◽

Transcription Factors ◽

Immune Function ◽

Sequence Divergence ◽

Expression Divergence ◽

Functional Categories ◽

Coding Sequence ◽

Immune Genes ◽

Genes Encoding ◽

Signal Transduction Proteins

Abstract Differences in immune function between species could be a result of interspecific divergence in coding sequence and/or expression of immune genes. Here, we investigate how the degree of divergence in coding sequence and expression differs between functional categories of immune genes, and if differences between categories occur independently of other factors (expression level, pleiotropy). To this end, we compared spleen transcriptomes of wild-caught yellow-necked mice and bank voles. Immune genes expressed in the spleen were divided into four categories depending on the function of the encoded protein: pattern recognition receptors (PRR); signal transduction proteins; transcription factors; and cyto- and chemokines and their receptors. Genes encoding PRR and cyto-/chemokines had higher sequence divergence than genes encoding signal transduction proteins and transcription factors, even when controlling for potentially confounding factors. Genes encoding PRR also had higher expression divergence than genes encoding signal transduction proteins and transcription factors. There was a positive correlation between expression divergence and coding sequence divergence, in particular for PRR genes. We propose that this is a result of that divergence in PRR coding sequence leads to divergence in PRR expression through positive feedback of PRR ligand binding on PRR expression. When controlling for sequence divergence, expression divergence of PRR genes did not differ from other categories. Taken together, the results indicate that coding sequence divergence of PRR genes is a major cause of differences in immune function between species.

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