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We used a N-biotinylated peptide analog of the C-terminal domain of the tumor suppressor protein, p21cip1/waf1 to elucidate peptide/protein interacting partners. The C-terminal domain of p21cip1/waf1 protein spanning 141-160 amino acid residues is known to bind PCNA and this interaction is important in many biological processes including cell-cycle control. This C-terminal 20-mer efficiently extracts PCNA in the presence of a variety of N- or C-terminally attached affinity tags. Using difference silver stained 2D gels combined with in-gel tryptic digests, we identified the difference spots using MALDI-TOF mass spectrometry-based peptide mass fingerprinting followed by a database search using PROFOUND against NCBIs human nonredundant protein sequence data bank. Identified spots include the p48 subunit of chromatin assembly factor-1, the heat shock 70 protein analog BiP, calmodulin, nucleolin and a spot similar in size to dimeric PCNA. In contrast, microcapillary ion-trap LC-MS/MS analysis of a tryptic digest of entire affinity extracts derived from both control and experimental runs followed by database searches using SEQUEST confirmed the presence of most of the above proteins. This strategy also identified hnRNPA1, HPSP90alpha, HSP40 and T-complex protein 1, a protein similar to prothymosin, and a possible allelic variant of the p21cip1/waf1 protein. The use of N-biotinylated peptide derived from the C-terminal domain of p21cip1/waf1 protein in proteomic analysis exemplified here suggests that peptides obtained from intracellular functional screens could also potentially serve as efficient baits to discover new drug targets. 相似文献
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Tarikere L. Gururaja Narayanan Ramasubbu Michael J. Levine 《Letters in Peptide Science》1996,3(2):79-88
Summary Short glycopeptides derived from salivary mucin have been synthesized in order to delineate the O-glycosylation pattern that is important in the biological activity of mucin. Two glycopoptides, APPETT*AAP-OMe and PAPPSS*SAP-OMe (*=-d-GalNAc), were prepared by solid-phase peptide synthesis integrating the Fmoc and Boc strategies. Since these peptides contain a C-terminal proline, we devised an efficient strategy using facile Boc chemistry, where the glycosylation at the desired position in the sequence was achieved using corresponding Fmoc-glycoamino acid esters A and B as building blocks. The transformation of the 2-azido group into the acetamido derivative was performed with thioacetic acid on the polymer-bound glycopeptides. Corresponding nonglycosylated peptides were also synthesized to study the influence of -d-GalNAc on peptide backbone conformation. 相似文献
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KV Thomas 《Biofouling》2013,29(1):73-86
Antifouling paint booster biocides are a group of organic compounds added to antifouling paints to improve their efficacy. They have become prevalent since the requirement for alternative antifouling paints formulations for small boats (< 25 m). This need followed a ban on the use of triorganotin biocides in antifouling paints for small boats, in the late 1980's. Worldwide, around eighteen compounds are currently used as antifouling biocides, viz. benzmethylamide, chlorothalonil, copper pyrithione, dichlofluanid, diuron, fluorofolpet, Irgarol 1051, Sea‐Nine 211, Mancozeb, Polyphase, pyridine‐triphenyl‐borane, TCMS (2,3,5,6‐tetrachloro‐4‐methylsulfonyl) pyridine, TCMTB [2‐(thiocyanomethylthio)benzothia‐zole], Thiram, tolyfluanid, zinc pyrithione (ZPT), ziram and Zineb. Any booster biocide released into the environment is subjected to a complex set of processes. These processes include transport mechanisms, transformation, degradation, cross media partitioning, and bioaccumulation. This paper reviews the fate and behaviour data currently available in the public domain concerning antifouling paint booster biocides. 相似文献
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We have used electrospray mass spectrometry to examine the dimerization of EFLIVKS, a reversed sequence analog of part of the neuropeptide head activator, and other similar analogs. Observation of the EFLIVKS gas phase dimer is concentration-dependent, with a half-saturation concentration for relative dimer formation of 7.8 microM, similar to that of SKVILFE of 12 microM. The lowest energy conformers from quenched molecular dynamics simulations suggest EFLIVKS may dimerize in the gas phase by formation of multiple ion pairs across the dimer interface. Alanine-scan mutants also dimerize in the gas phase, with replacement of the interior residues FLIVK diminishing dimerization. The concentration-dependence of the EFLIVKS circular dichroism spectrum at pH 7.5 suggests the existence of different conformation states at different concentrations, but does not provide evidence supporting the saturable dimer formation in solution. Different analogs of EFLIVKS, when fused to each end of a 18mer unfolded peptide, induce solution structures with T(m)s of 42-50 degrees C. These peptides and analogs may thus be useful for the noncovalent constraint of peptides and peptide library members used in cellular screens. 相似文献
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Background
The function of proteins is a direct consequence of their three-dimensional structure. The structural classification of proteins describes the ways of folding patterns all proteins could adopt. Although, the protein folds were described in many ways the functional properties of individual folds were not studied.Results
We have analyzed two β-barrel folds generally adopted by small proteins to be looking similar but have different topology. On the basis of the topology they could be divided into two different folds named SH3-fold and OB-fold. There was no sequence homology between any of the proteins considered. The sequence diversity and loop variability was found to be important for various binding functions.Conclusions
The function of Oligonucleotide/oligosaccharide-binding (OB) fold proteins was restricted to either DNA/RNA binding or sugar binding whereas the Src homology 3 (SH3) domain like proteins bind to a variety of ligands through loop modulations. A question was raised whether the evolution of these two folds was through DNA shuffling. 相似文献6.
Shubha Gururaja Rao Michal M. Janiszewski Edward Duca Bryce Nelson Kanishk Abhinav Ioanna Panagakou Sharron Vass Margarete M.S. Heck 《Nucleic acids research》2015,43(7):3546-3562
Identification of components essential to chromosome structure and behaviour remains a vibrant area of study. We have previously shown that invadolysin is essential in Drosophila, with roles in cell division and cell migration. Mitotic chromosomes are hypercondensed in length, but display an aberrant fuzzy appearance. We additionally demonstrated that in human cells, invadolysin is localized on the surface of lipid droplets, organelles that store not only triglycerides and sterols but also free histones H2A, H2Av and H2B. Is there a link between the storage of histones in lipid droplets and the aberrantly structured chromosomes of invadolysin mutants? We have identified a genetic interaction between invadolysin and nonstop, the de-ubiquitinating protease component of the SAGA (Spt-Ada-Gcn5-acetyltransferase) chromatin-remodelling complex. invadolysin and nonstop mutants exhibit phenotypic similarities in terms of chromosome structure in both diploid and polyploid cells. Furthermore, IX-141/not1 transheterozygous animals accumulate mono-ubiquitinated histone H2B (ubH2B) and histone H3 tri-methylated at lysine 4 (H3K4me3). Whole mount immunostaining of IX-141/not1 transheterozygous salivary glands revealed that ubH2B accumulates surprisingly in the cytoplasm, rather than the nucleus. Over-expression of the Bre1 ubiquitin ligase phenocopies the effects of mutating either the invadolysin or nonstop genes. Intriguingly, nonstop and mutants of other SAGA subunits (gcn5, ada2b and sgf11) all suppress an invadolysin-induced rough eye phenotype. We conclude that the abnormal chromosome phenotype of invadolysin mutants is likely the result of disrupting the histone modification cycle, as accumulation of ubH2B and H3K4me3 is observed. We further suggest that the mislocalization of ubH2B to the cytoplasm has additional consequences on downstream components essential for chromosome behaviour. We therefore propose that invadolysin plays a crucial role in chromosome organization via its interaction with the SAGA complex. 相似文献
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Basavegowdanadoddi Marinaik Chandranaik Sonnahallipura Munivenkatappa Byregowda Mudalagiri Dasappagupta Venkatesha Kantharajapura Ramanna Ramesha Poojappa Nandini Poorvi Reddy Thushara Bindu KV Beechagondahalli Papanna Shivashankar Byadarahalli Puttaswamy Shankar Methuku Sobha Rani 《European Journal of Wildlife Research》2018,64(1):4
We report the molecular epidemiology of highly pathogenic avian influenza (HPAI) virus involved in an outbreak causing death in free-ranging wild birds at Mysore, Karnataka state of India. The virus was typed as HPAI A(H5N8) by conventional and TaqMan probe based real-time PCR assays. Six isolates of HPAI virus were recovered in 9-day-old embryonated chicken eggs. Haemagglutinin gene-based phylogeny of virus isolates showed >?99.9% nucleotide sequence identity with HPAI A(H5N8) isolates from migratory birds and domestic poultry from China and Korea indicating either these wild birds have routed their migration through Korea and/or eastern China or these dead birds must have directly or indirectly contacted with wild birds migrating from Eastern China and/or Korean regions. The study emphasises the role of migratory wild birds in spread of HPAI across the globe. 相似文献
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Suman Kanungo Bandana Sen Thandavarayan Ramamurthy Dipika Sur Byomkesh Manna Gururaja P. Pazhani Goutam Chowdhury Puja Jhunjhunwala Ranjan K. Nandy Hemanta Koley Mihir Kumar Bhattacharya Sanjay Gupta Gaurav Goel Bindu Dey Thungapathra M G. Balakrish Nair Amit Ghosh Dilip Mahalanabis 《PloS one》2014,9(7)