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131.
Background
Gα16 can activate phospholipase Cβ (PLCβ) directly like Gαq. It also couples to tetratricopeptide repeat 1 (TPR1) which is linked to Ras activation. It is unknown whether PLCβ and TPR1 interact with the same regions on Gα16. Previous studies on Gαq have defined two minimal clusters of amino acids that are essential for the coupling to PLCβ. Cognate residues in Gα16 might also be essential for interacting with PLCβ, and possibly contribute to TPR1 interaction and other signaling events.Results
Alanine mutations were introduced to the two amino acid clusters (246–248 and 259–260) in the switch III region and α3 helix of Gα16. Regulations of PLCβ and STAT3 were partially weakened by each cluster mutant. A mutant harboring mutations at both clusters generally produced stronger suppressions. Activation of Jun N-terminal kinase (JNK) by Gα16 was completely abolished by mutating either clusters. Contrastingly, phosphorylations of extracellular signal-regulated kinase (ERK) and nuclear factor κB (NF-κB) were not significantly affected by these mutations. The interactions between the mutants and PLCβ2 and TPR1 were also reduced in co-immunoprecipitation assays. Coupling between G16 and different categories of receptors was impaired by the mutations, with the effect of switch III mutations being more pronounced than those in the α3 helix. Mutations of both clusters almost completely abolished the receptor coupling and prevent receptor-induced Gβγ release.Conclusion
The integrity of the switch III region and α3 helix of Gα16 is critical for the activation of PLCβ, STAT3, and JNK but not ERK or NF-κB. Binding of Gα16 to PLCβ2 or TPR1 was reduced by the mutations of either cluster. The same region could also differentially affect the effectiveness of receptor coupling to G16. The studied region was shown to bear multiple functionally important roles of G16. 相似文献132.
Mutant p53 DNA clones from human colon carcinomas cooperate with ras in transforming primary rat cells: a comparison of the "hot spot" mutant phenotypes 总被引:67,自引:0,他引:67
P W Hinds C A Finlay R S Quartin S J Baker E R Fearon B Vogelstein A J Levine 《Cell growth & differentiation》1990,1(12):571-580
The majority of the p53 genes derived from human colorectal carcinomas contain point mutations. A significant number of these mutations occur in or around amino acids 143, 175, 273, or 281. Experiments presented here demonstrate for the first time that p53 DNA clones containing any one of these mutations cooperate with the activated ras oncogene to transform primary rat embryo cells in culture. These transformed cells produce elevated levels of the human p53 protein, which has extended half-lives (1.5-7 h), as compared to the wild-type human p53 protein (20-30 min). The p53 mutant with an alteration at residue 175 (p53-175H) binds tightly to the cellular heat shock protein, hsc70. In contrast, the p53 mutants possessing mutations at either residue 273 or 281 (p53-273H/281G) do not bind detectably to this heat shock protein and generally are less efficient at forming transformed foci in culture. The transformed cell lines are tumorigenic in nude mice. Thus, two classes of p53 mutant proteins can be distinguished: p53-175H, which cooperates with ras efficiently and binds to hsc70, and p53-273H/281G, which has a reduced efficiency of transformed foci formation and does not bind hsc70. This demonstrates that complex formation between mutant p53 and hsc70 is not required for p53-mediated transformation, but rather it facilitates this function, perhaps by ensuring sequestration of the endogenous wild-type p53 protein. The positive effect on cell proliferation by these mutant p53 proteins is consistent with a role for activated p53 mutants in the genesis of colorectal carcinomas. 相似文献
133.
Daren Fearon Isaac M. Westwood Rob L.M. van Montfort Richard Bayliss Keith Jones Vassilios Bavetsias 《Bioorganic & medicinal chemistry》2018,26(11):3021-3029
Screening a 3-aminopyridin-2-one based fragment library against a 26-kinase panel representative of the human kinome identified 3-amino-5-(1-methyl-1H-pyrazol-4-yl)pyridin-2(1H)-one (2) and 3-amino-5-(pyridin-4-yl)pyridin-2(1H)-one (3) as ligand efficient inhibitors of the mitotic kinase Monopolar Spindle 1 (MPS1) and the Aurora kinase family. These kinases are well recognised as attractive targets for therapeutic intervention for treating cancer. Elucidation of the binding mode of these fragments and their analogues has been carried out by X-ray crystallography. Structural studies have identified key interactions with a conserved lysine residue and have highlighted potential regions of MPS1 which could be targeted to improve activity and selectivity. 相似文献
134.
Gene expression analysis by massively parallel signature sequencing (MPSS) on microbead arrays 总被引:34,自引:0,他引:34
Brenner S Johnson M Bridgham J Golda G Lloyd DH Johnson D Luo S McCurdy S Foy M Ewan M Roth R George D Eletr S Albrecht G Vermaas E Williams SR Moon K Burcham T Pallas M DuBridge RB Kirchner J Fearon K Mao J Corcoran K 《Nature biotechnology》2000,18(6):630-634
We describe a novel sequencing approach that combines non-gel-based signature sequencing with in vitro cloning of millions of templates on separate 5 microm diameter microbeads. After constructing a microbead library of DNA templates by in vitro cloning, we assembled a planar array of a million template-containing microbeads in a flow cell at a density greater than 3x10(6) microbeads/cm2. Sequences of the free ends of the cloned templates on each microbead were then simultaneously analyzed using a fluorescence-based signature sequencing method that does not require DNA fragment separation. Signature sequences of 16-20 bases were obtained by repeated cycles of enzymatic cleavage with a type IIs restriction endonuclease, adaptor ligation, and sequence interrogation by encoded hybridization probes. The approach was validated by sequencing over 269,000 signatures from two cDNA libraries constructed from a fully sequenced strain of Saccharomyces cerevisiae, and by measuring gene expression levels in the human cell line THP-1. The approach provides an unprecedented depth of analysis permitting application of powerful statistical techniques for discovery of functional relationships among genes, whether known or unknown beforehand, or whether expressed at high or very low levels. 相似文献
135.
Kumaran Kandasamy Sujatha S Mohan Rajesh Raju Shivakumar Keerthikumar Ghantasala S Sameer Kumar Abhilash K Venugopal Deepthi Telikicherla Daniel J Navarro Suresh Mathivanan Christian Pecquet Sashi Kanth Gollapudi Sudhir Gopal Tattikota Shyam Mohan Hariprasad Padhukasahasram Yashwanth Subbannayya Renu Goel Harrys KC Jacob Jun Zhong Raja Sekhar Vishalakshi Nanjappa Lavanya Balakrishnan Roopashree Subbaiah YL Ramachandra Abdul B Rahiman Keshava TS Prasad Jian-Xin Lin Jon CD Houtman Stephen Desiderio Jean-Christophe Renauld Stefan N Constantinescu Osamu Ohara Toshio Hirano Masato Kubo Sujay Singh Purvesh Khatri Sorin Draghici Gary D Bader Chris Sander Warren J Leonard Akhilesh Pandey 《Genome biology》2010,11(1):1-9
136.
K Caca F T Kolligs X Ji M Hayes J Qian A Yahanda D L Rimm J Costa E R Fearon 《Cell growth & differentiation》1999,10(6):369-376
137.
Kirk?K?DurstonEmail author David?KY?Chiu Andrew?KC?Wong Gary?CL?Li 《EURASIP Journal on Bioinformatics and Systems Biology》2012,2012(1):8
Background
Much progress has been made in understanding the 3D structure of proteins using methods such as NMR and X-ray crystallography. The resulting 3D structures are extremely informative, but do not always reveal which sites and residues within the structure are of special importance. Recently, there are indications that multiple-residue, sub-domain structural relationships within the larger 3D consensus structure of a protein can be inferred from the analysis of the multiple sequence alignment data of a protein family. These intra-dependent clusters of associated sites are used to indicate hierarchical inter-residue relationships within the 3D structure. To reveal the patterns of associations among individual amino acids or sub-domain components within the structure, we apply a k-modes attribute (aligned site) clustering algorithm to the ubiquitin and transthyretin families in order to discover associations among groups of sites within the multiple sequence alignment. We then observe what these associations imply within the 3D structure of these two protein families.Results
The k-modes site clustering algorithm we developed maximizes the intra-group interdependencies based on a normalized mutual information measure. The clusters formed correspond to sub-structural components or binding and interface locations. Applying this data-directed method to the ubiquitin and transthyretin protein family multiple sequence alignments as a test bed, we located numerous interesting associations of interdependent sites. These clusters were then arranged into cluster tree diagrams which revealed four structural sub-domains within the single domain structure of ubiquitin and a single large sub-domain within transthyretin associated with the interface among transthyretin monomers. In addition, several clusters of mutually interdependent sites were discovered for each protein family, each of which appear to play an important role in the molecular structure and/or function.Conclusions
Our results demonstrate that the method we present here using a k- modes site clustering algorithm based on interdependency evaluation among sites obtained from a sequence alignment of homologous proteins can provide significant insights into the complex, hierarchical inter-residue structural relationships within the 3D structure of a protein family.138.
JoHsi Huang Hannah KC Co YiChen Lee ChiaChou Wu Shenghong Chen 《Molecular systems biology》2021,17(10)
Cells metabolize nutrients through a complex metabolic and signaling network that governs redox homeostasis. At the core of this, redox regulatory network is a mutually inhibitory relationship between reduced glutathione and reactive oxygen species (ROS)—two opposing metabolites that are linked to upstream nutrient metabolic pathways (glucose, cysteine, and glutamine) and downstream feedback loops of signaling pathways (calcium and NADPH oxidase). We developed a nutrient‐redox model of human cells to understand system‐level properties of this network. Combining in silico modeling and ROS measurements in individual cells, we show that ROS dynamics follow a switch‐like, all‐or‐none response upon glucose deprivation at a threshold that is approximately two orders of magnitude lower than its physiological concentration. We also confirm that this ROS switch can be irreversible and exhibits hysteresis, a hallmark of bistability. Our findings evidence that bistability modulates redox homeostasis in human cells and provide a general framework for quantitative investigations of redox regulation in humans. 相似文献
139.
140.
R H Carter D A Tuveson D J Park S G Rhee D T Fearon 《Journal of immunology (Baltimore, Md. : 1950)》1991,147(11):3663-3671
We have investigated the mechanism by which the membrane protein complex of the B lymphocyte that contains CD19 and CR2 activates phospholipase C (PLC) to induce a rise in [CA2+]i. The CD19 complex resembled the membrane IgM complex in that three protein tyrosine kinase inhibitors suppressed increases in [Ca2+]i and inositol bisphosphate and inositol triphosphate generation. However, the activation of PLC by the CD19 complex could be distinguished from that by the membrane IgM complex by slower kinetics of generation of inositol phosphates, resistance to inhibition by activators of protein kinase C, and different pattern of tyrosine-phosphorylated cellular substrates. Western blot analysis of lysates from cells stimulated by the CD19 complex demonstrated a single new phosphotyrosine-containing protein of 85 kDa, whereas multiple other phosphotyrosine-containing proteins were present in cells activated by the mIgM complex. In particular, PLC-gamma 1, which is a substrate for the protein tyrosine kinase activated by the mIgM complex, was not tyrosine-phosphorylated in cells stimulated by the CD19 complex. Cross-linking the two complexes together caused a synergistic increase in [CA2+]i which was neither suppressed by activation of protein kinase C nor associated with increased tyrosine-phosphorylation of PLC, characteristic of the CD19 pathway. Therefore, the B cell has two signal transduction complexes, associated with membrane IgM and CD19, that activate PLC by different mechanisms and that can synergistically interact to enhance this function by the CD19 pathway. 相似文献