The glycogen branching enzyme gene (glgB) from Pectobacterium chrysanthemi PY35 was cloned, sequenced, and expressed in Escherichia coli. The glgB gene consisted of an open reading frame of 2196bp encoding a protein of 731 amino acids (calculated molecular weight of 83,859Da). The glgB gene is upstream of glgX and the ORF starts the ATG initiation codon and ends with the TGA stop codon at 2bp upstream of glgX. The enzyme was 43-69% sequence identical with other glycogen branching enzymes. The enzyme is the most similar to GlgB of E. coli and contained the four regions conserved among the alpha-amylase family. The glycogen branching enzyme (GlgB) was purified and the molecular weight of the enzyme was estimated to be 84kDa by SDS-PAGE. The glycogen branching enzyme was optimally active at pH 7 and 30 degrees C. 相似文献
We have generated two mAbs, 6G4.2.5 and A5.12.14, that are similarly capable of neutralizing the biologic activity of wild-type IL-8. To characterize these antibodies further, their reactivity against a series of engineered IL-8 monomer and dimer variants was examined using a neutrophil degranulation assay. While 6G4.2.5 was found to block effectively the biologic activity of all variants regardless of their dimerization status, the results for A5.12.14 differed dramatically. A5.12.14 fully inhibited the agonist activity of one of the monomer variants, partially blocked the activity of another, and had no effect on the activity of two other variants. These results suggested that the binding epitope of A5.12.14 was being affected by the particular amino acid substitutions introduced into the dimer interface region of the variants to disfavor dimerization. If A5.12.14 indeed binds to the dimer interface region of IL-8, it could be predicted that this mAb would be unable to inhibit the activity of dimeric IL-8. This was confirmed in studies which showed that A5.12.14 had no demonstrable effect on the activity of a constitutively dimeric IL-8 variant. These studies represent the first example of a mAb specific for the dimerization status of IL-8. 相似文献
Intrinsically disordered domains have been reported to play important roles in signal transduction networks by introducing cooperativity into protein–protein interactions. Unlike intrinsically disordered domains that become ordered upon binding, the EF-SAM domain in the stromal interaction molecule (STIM) 1 is distinct in that it is ordered in the monomeric state and partially unfolded in its oligomeric state, with the population of the two states depending on the local Ca2 + concentration. The oligomerization of STIM1, which triggers extracellular Ca2 + influx, exhibits cooperativity with respect to the local endoplasmic reticulum Ca2 + concentration. Although the physiological importance of the oligomerization reaction is well established, the mechanism of the observed cooperativity is not known. Here, we examine the response of the STIM1 EF-SAM domain to changes in Ca2 + concentration using mathematical modeling based on in vitro experiments. We find that the EF-SAM domain partially unfolds and dimerizes cooperatively with respect to Ca2 + concentration, with Hill coefficients and half-maximal activation concentrations very close to the values observed in vivo for STIM1 redistribution and extracellular Ca2 + influx. Our mathematical model of the dimerization reaction agrees quantitatively with our analytical ultracentrifugation-based measurements and previously published free energies of unfolding. A simple interpretation of these results is that Ca2 + loss effectively acts as a denaturant, enabling cooperative dimerization and robust signal transduction. We present a structural model of the Ca2 +-unbound EF-SAM domain that is consistent with a wide range of evidence, including resistance to proteolytic cleavage of the putative dimerization portion. 相似文献
The transition from liver fibrosis to hepatocellular carcinoma (HCC) has been suggested to be a continuous and developmental pathological process. MicroRNAs (miRNAs) are recently discovered molecules that regulate the expression of genes involved in liver disease. Many reports demonstrate that miR‐483‐5p and miR‐483‐3p, which originate from miR‐483, are up‐regulated in HCC, and their oncogenic targets have been identified. However, recent studies have suggested that miR‐483‐5p/3p is partially down‐regulated in HCC samples and is down‐regulated in rat liver fibrosis. Therefore, the aberrant expression and function of miR‐483 in liver fibrosis remains elusive. In this study, we demonstrate that overexpression of miR‐483 in vivo inhibits mouse liver fibrosis induced by CCl4. We demonstrate that miR‐483‐5p/3p acts together to target two pro‐fibrosis factors, platelet‐derived growth factor‐β and tissue inhibitor of metalloproteinase 2, which suppress the activation of hepatic stellate cells (HSC) LX‐2. Our work identifies the pathway that regulates liver fibrosis by inhibiting the activation of HSCs. 相似文献
The cadherin epidermal growth factor (EGF) laminin G (LAG) seven‐pass G‐type receptors (CELSRs) are a special subgroup of adhesion G protein‐coupled receptors, which are pivotal regulators of many biologic processes such as neuronal/endocrine cell differentiation, vessel valve formation, and the control of planar cell polarity during embryonic development. All three members of the CELSR family (CELSR1‐3) have large ecto‐domains that form homophilic interactions and encompass more than 2000 amino acids. Mutations in the ecto‐domain or other gene locations of CELSRs are associated with neural tube defects and other diseases in humans. Celsr knockout (KO) animals have many developmental defects. Therefore, specific agonists or antagonists of CELSR members may have therapeutic potential. Although significant progress has been made regarding the functions and biochemical properties of CELSRs, our knowledge of these receptors is still lacking, especially considering that they are broadly distributed but have few characterized functions in a limited number of tissues. The dynamic activation and inactivation of CELSRs and the presence of endogenous ligands beyond homophilic interactions remain elusive, as do the regulatory mechanisms and downstream signaling of these receptors. Given this motivation, future studies with more advanced cell biology or biochemical tools, such as conditional KO mice, may provide further insights into the mechanisms underlying CELSR function, laying the foundation for the design of new CELSR‐targeted therapeutic reagents.
Fruit flies in the family Tephritidae are the economically important pests that have many species complexes. DNA barcoding has gradually been verified as an effective tool for identifying species in a wide range of taxonomic groups, and there are several publications on rapid and accurate identification of fruit flies based on this technique; however, comprehensive analyses of large and new taxa for the effectiveness of DNA barcoding for fruit flies identification have been rare. In this study, we evaluated the COI barcode sequences for the diagnosis of fruit flies using 1426 sequences for 73 species of Bactrocera distributed worldwide. Tree‐based [neighbour‐joining (NJ)]; distance‐based, such as Best Match (BM), Best Close Match (BCM) and Minimum Distance (MD); and character‐based methods were used to evaluate the barcoding success rates obtained with maintaining the species complex in the data set, treating a species complex as a single taxon unit, and removing the species complex. Our results indicate that the average divergence between species was 14.04% (0.00–25.16%), whereas within a species this was 0.81% (0.00–9.71%); the existence of species complexes largely reduced the barcoding success for Tephritidae, for example relatively low success rates (74.4% based on BM and BCM and 84.8% based on MD) were obtained when the sequences from species complexes were included in the analysis, whereas significantly higher success rates were achieved if the species complexes were treated as a single taxon or removed from the data set – BM (98.9%), BCM (98.5%) and MD (97.5%), or BM (98.1%), BCM (97.4%) and MD (98.2%). 相似文献
