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991.
Escherichia coli is one of the most common and widely used prokaryotic hosts for the expression of recombinant proteins. The overexpression
of recombinant proteins occasionally increases bacterial growth but sometimes reduces it and becomes lethal to the host cells.
Here, we report the overexpression of mouse ER-β and its domains in the prokaryotic expression system and its opposite effect on the growth characteristics of E. coli. ER-β protein was immunologically detected as a 53 kDa his-tag protein in the pellet of the bacterial lysate. Its overexpression,
as reflected by the total protein content and expression pattern, resulted in the decrease of bacterial growth. However, the
overexpression of ER-β transactivation domain (TAD) using pIVEX and ligand binding domain (LBD) using pRSETA in E. coli BL21 (DE3) show opposite pattern. TAD was immunologically detected as 20 kDa and LBD as 22 kDa protein in the supernatant
of the bacterial lysate and their overexpression increased the bacterial growth. 相似文献
992.
Saxena RK Cui X Thakur V Walter B Close TJ Varshney RK 《Functional & integrative genomics》2011,11(4):651-657
Single feature polymorphisms (SFPs) are microarray-based molecular markers that are detected by hybridization of DNA or cRNA
to oligonucleotide probes. With an objective to identify the potential polymorphic markers for drought tolerance in pigeonpea
[Cajanus cajan (L.) Millspaugh], an important legume crop for the semi-arid tropics but deficient in genomic resources, Affymetrix Genome
Arrays of soybean (Glycine max), a closely related species of pigeonpea were used on cRNA of six parental genotypes of three mapping populations of pigeonpea
segregating for agronomic traits like drought tolerance and pod borer (Helicoverpa armigiera) resistance. By using robustified projection pursuit method on 15 pair-wise comparisons for the six parental genotypes, 5,692
SFPs were identified. Number of SFPs varied from 780 (ICPL 8755 × ICPL 227) to 854 (ICPL 151 × ICPL 87) per parental combination
of the mapping populations. Randomly selected 179 SFPs were used for validation by Sanger sequencing and good quality sequence
data were obtained for 99 genes of which 75 genes showed sequence polymorphisms. While associating the sequence polymorphisms
with SFPs detected, true positives were observed for 52.6% SFPs detected. In terms of parental combinations of the mapping
populations, occurrence of true positives was 34.48% for ICPL 151 × ICPL 87, 41.86% for ICPL 8755 × ICPL 227, and 81.58% for
ICP 28 × ICPW 94. In addition, a set of 139 candidate genes that may be associated with drought tolerance has been identified
based on gene ontology analysis of the homologous pigeonpea genes to the soybean genes that detected SFPs between the parents
of the mapping populations segregating for drought tolerance. 相似文献
993.
The aggregation of polyglutamine containing protein sequences is implicated in a family of familial neurodegenerative diseases, the expanded CAG repeat diseases. While the cellular aggregation process undoubtedly depends on the flux and local environment of these proteins, their intrinsic physical properties and folding/aggregation propensities must also contribute to their cellular behavior. Here we describe a series of methods for determining mechanistic details of the spontaneous aggregation of polyQ-containing sequences, including the identification and structural examination of aggregation intermediates. 相似文献
994.
Szymanski DW Papanastasiou M Melchior K Zvonok N Mercier RW Janero DR Thakur GA Cha S Wu B Karger B Makriyannis A 《Journal of proteome research》2011,10(10):4789-4798
The lack of experimental characterization of the structures and ligand-binding motifs of therapeutic G-protein coupled receptors (GPCRs) hampers rational drug discovery. The human cannabinoid receptor 2 (hCB2R) is a class-A GPCR and promising therapeutic target for small-molecule cannabinergic agonists as medicines. Prior mutational and modeling data constitute provisional evidence that AM-841, a high-affinity classical cannabinoid, interacts with cysteine C6.47(257) in hCB2R transmembrane helix 6 (TMH6) to afford improved hCB2R selectivity and unprecedented agonist potency. We now apply bottom-up mass spectrometry (MS)-based proteomics to define directly the hCB2R-AM-841 interaction at the amino-acid level. Recombinant hCB2R, overexpressed as an N-terminal FLAG-tagged/C-terminal 6His-tagged protein (FLAG-hCB2R-6His) with a baculovirus system, was solubilized and purified by immunochromatography as functional receptor. A multiplex multiple reaction monitoring (MRM)-MS method was developed that allowed us to observe unambiguously all seven discrete TMH peptides in the tryptic digest of purified FLAG-hCB2R-6His and demonstrate that AM-841 modifies hCB2R TMH6 exclusively. High-resolution mass spectra of the TMH6 tryptic peptide obtained by Q-TOF MS/MS analysis demonstrated that AM-841 covalently and selectively modifies hCB2R at TMH6 cysteine C6.47(257). These data demonstrate how integration of MS-based proteomics into a ligand-assisted protein structure (LAPS) experimental paradigm can offer guidance to structure-enabled GPCR agonist design. 相似文献
995.
DNA strand break repair is essential for the prevention of multiple human diseases, particularly those which feature neuropathology. To further understand the pathogenesis of these syndromes, we recently developed animal models in which the DNA single-strand break repair (SSBR) components, XRCC1 and DNA Ligase III (LIG3), were inactivated in the developing nervous system. Although biochemical evidence suggests that inactivation of XRCC1 and LIG3 should share common biological defects, we found profound phenotypic differences between these two models, implying distinct biological roles for XRCC1 and LIG3 during DNA repair. Rather than a key role in nuclear DNA repair, we found LIG3 function was central to mitochondrial DNA maintenance. Instead, our data indicate that DNA Ligase 1 is the main DNA ligase for XRCC1-mediated DNA repair. These studies refine our understanding of DNA SSBR and the etiology of neurological disease.Key words: DNA repair, nervous system, neurodegeneration, DNA ligase III, DNA damage, XRCC1, mitochondria, mtDNA 相似文献
996.
Schulz D Southekal S Junnarkar SS Pratte JF Purschke ML Stoll SP Ravindranath B Maramraju SH Krishnamoorthy S Henn FA O'Connor P Woody CL Schlyer DJ Vaska P 《Nature methods》2011,8(4):347-352
Positron emission tomography (PET) neuroimaging and behavioral assays in rodents are widely used in neuroscience. PET gives insights into the molecular processes of neuronal communication, and behavioral methods analyze the actions that are associated with such processes. These methods have not been directly integrated, because PET studies in animals have until now required general anesthesia to immobilize the subject, which precludes behavioral studies. We present a method for imaging awake, behaving rats with PET that allows the simultaneous study of behavior. Key components include the 'rat conscious animal PET' or RatCAP, a miniature portable PET scanner that is mounted on the rat's head, a mobility system that allows considerable freedom of movement, radiotracer administration techniques and methods for quantifying behavior and correlating the two data sets. The simultaneity of the PET and behavioral data provides a multidimensional tool for studying the functions of different brain regions and their molecular constituents. 相似文献
997.
Mufti J Hajarnis S Shepardson K Gummadi L Taylor L Curthoys NP 《American journal of physiology. Renal physiology》2011,301(5):F1066-F1077
Onset of metabolic acidosis leads to a rapid and pronounced increase in expression of phosphoenolpyruvate carboxykinase (PEPCK) in rat renal proximal convoluted tubules. This adaptive response is modeled by treating a clonal line of porcine LLC-PK(1)-F(+) cells with an acidic medium (pH 6.9, 9 mM HCO(3)(-)). Measurement of the half-lives of PEPCK mRNA in cells treated with normal (pH 7.4, 26 mM HCO(3)(-)) and acidic medium established that the observed increase is due in part to stabilization of the PEPCK mRNA. The pH-responsive stabilization was reproduced in a Tet-responsive chimeric reporter mRNA containing the 3'-UTR of PEPCK mRNA. This response was lost by mutation of a highly conserved AU sequence that binds AUF1 and is the primary element that mediates the rapid turnover of PEPCK mRNA. However, siRNA knockdown of AUF1 had little effect on the basal levels and the pH-responsive increases in PEPCK mRNA and protein. Electrophoretic mobility shift assays established that purified recombinant HuR, another AU element binding protein, also binds with high affinity and specificity to multiple sites within the final 92-nucleotides of the 3'-UTR of the PEPCK mRNA, including the highly conserved AU-rich element. siRNA knockdown of HuR caused pronounced decreases in basal expression and the pH-responsive increases in PEPCK mRNA and protein. Therefore, basal expression and the pH-responsive stabilization of PEPCK mRNA in LLC-PK(1)-F(+) cells, and possibly in the renal proximal tubule, may require the remodeling of HuR and AUF1 binding to the elements that mediate the rapid turnover of PEPCK mRNA. 相似文献
998.
999.
The ability of fluorescent Pseudomonas strain EKi, in production of biocontrol and plant growth promotory (PGP) metabolites under saline stress was evaluated. Strain
EKi could tolerate NaCl up to 1,550 mM and showed biocontrol of Macrophomina phaseolina (76.19%) in the presence of up to 400 mM NaCl. Strain EKi was able to produce IAA, siderophore and pyocyanin with gradual
reduction of up to 76.31, 45.46, and 48.99%, respectively, as NaCl concentration increased from 0 to 500 mM. Reduced growth
rate resulted in delayed induction of IAA, siderophore and pyocyanin by the PGPR. Thin layer chromatography of chloroform
extract from non-stressed and salt stressed EKi, and inhibition of M. phaseolina by purified pyocyanin clearly indicated its role in biocontrol. In vitro and in vivo results showed the growth promotion
and charcoal rot disease suppression of chickpea by strain EKi under both non-stressed and saline stress. There was 76.75
and 65.25% reduction of disease incidence in non-saline and saline conditions, respectively, in vitro conditions. In presence
of M. phaseolina strain EKi brought about 67.65 and 58.45% reduction of disease incidence in non-saline and saline soil, respectively. 相似文献
1000.
Dhamija S Kuehne N Winzen R Doerrie A Dittrich-Breiholz O Thakur BK Kracht M Holtmann H 《The Journal of biological chemistry》2011,286(38):33279-33288