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41.
《Molecular & cellular proteomics : MCP》2023,22(1):100480
Alternative ORFs (AltORFs) are unannotated sequences in genome that encode novel peptides or proteins named alternative proteins (AltProts). Although ribosome profiling and bioinformatics predict a large number of AltProts, mass spectrometry as the only direct way of identification is hampered by the short lengths and relative low abundance of AltProts. There is an urgent need for improvement of mass spectrometry methodologies for AltProt identification. Here, we report an approach based on size-exclusion chromatography for simultaneous enrichment and fractionation of AltProts from complex proteome. This method greatly simplifies the variance of AltProts discovery by enriching small proteins smaller than 40 kDa. In a systematic comparison between 10 methods, the approach we reported enabled the discovery of more AltProts with overall higher intensities, with less cost of time and effort compared to other workflows. We applied this approach to identify 89 novel AltProts from mouse liver, 39 of which were differentially expressed between embryonic and adult mice. During embryonic development, the upregulated AltProts were mainly involved in biological pathways on RNA splicing and processing, whereas the AltProts involved in metabolisms were more active in adult livers. Our study not only provides an effective approach for identifying AltProts but also novel AltProts that are potentially important in developmental biology. 相似文献
42.
V. V. Hauryliuk 《Molecular Biology》2006,40(5):688-701
Bacterial protein synthesis involves four protein factors that belong to the GTPase family: IF2, EF-G, EF-Tu, and RF3. Their role in translation has attracted considerable interest over the recent decades. Cryoelectron microscopy has made it possible to monitor the dynamics of the ribosome upon binding of the translation factors, and biochemical findings have associated the structural data with functional changes in GTPases: the exchange of GDP for GTP, activation of GTPase, and changes in its conformation. The results have been used to construct models of GTPase action during prokaryotic translation. Data are accumulating that the ribosome simultaneously acts as a GDP/GTP exchange factor and a GTPase-activating factor for RF3, IF2, and EF-G. The review systematizes the most important experimental findings and theoretical models proposed for regulation of the functional cycle of prokaryotic translation GTPases. 相似文献
43.
目的 构建乙型肝炎病毒核心抗原(HBcAg)和Flt3配体(FL)胞外段双表达核酸疫苗,并观察其免疫原性。方法 分别将HBcAg、FL基因克隆入pJW4303载体,获得双表达核酸疫苗,体外转染293T细胞检测目的基因的表达。分组免疫BABL/c小鼠,酶联免疫吸附试验(ELISA)检测小鼠血清抗-HBc IgG效价,酶联免疫斑点试验(ELISPOT)检测HBcAg特异性Th1/Th2型细胞因子的分泌水平。结果 所构建疫苗在体外均能表达HBcAg和FL,当基因位于内部核糖体切入位点(IRES)元件上游时表达水平明显较优。pJW4303/C/FL免疫组产生的抗-HBc IgG效价和Th1/Th2型细胞因子的分泌水平均显著优于pJW4303/C和pJW4303/FL/C组。结论 成功构建双表达核酸疫苗,基因位于上游时表达水平高于下游。FL基因的引入明显增强了HBcAg核酸疫苗的免疫原性。 相似文献
44.
Chengying Ma Kaige Yan Dan Tan Ningning Li Yixiao Zhang Yi Yuan Zhifei Li Meng-Qiu Dong Jianlin Lei Ning Gao 《蛋白质与细胞》2016,7(3):187
The human Shwachman-Diamond syndrome (SDS) is an autosomal recessive disease caused by mutations in a highly conserved ribosome assembly factor SBDS. The functional role of SBDS is to cooperate with another assembly factor, elongation factor 1-like (Efl1), to promote the release of eukaryotic initiation factor 6 (eIF6) from the late-stage cytoplasmic 60S precursors. In the present work, we characterized, both biochemically and structurally, the interaction between the 60S subunit and SBDS protein (Sdo1p) from yeast. Our data show that Sdo1p interacts tightly with the mature 60S subunit in vitro through its domain I and II, and is capable of bridging two 60S subunits to form a stable 2:2 dimer. Structural analysis indicates that Sdo1p bind to the ribosomal P-site, in the proximity of uL16 and uL5, and with direct contact to H69 and H38. The dynamic nature of Sdo1p on the 60S subunit, together with its strategic binding position, suggests a surveillance role of Sdo1p in monitoring the conformational maturation of the ribosomal P-site. Altogether, our data support a conformational signal-relay cascade during late-stage 60S maturation, involving uL16, Sdo1p, and Efl1p, which interrogates the functional P-site to control the departure of the anti-association factor eIF6. 相似文献
45.
In this review we summarize data on the location of template on the human ribosome that we obtained from cross-linking (affinity labeling) experiments using reactive mRNA analogs. Types of mRNA analogs, model complexes of these analogs with 80S ribosomes, and methods for analysis of the ribosomal components (proteins and rRNA nucleotides) cross-linked with the mRNA analogs are reviewed. From analysis of the cross-linking data, we suggest a scheme for the arrangement of mRNA on the human ribosome and compare the organization of the mRNA binding center on human and Escherichia coli ribosomes. 相似文献
46.
Balasubramanian Suriyanarayanan Praveena Pothuraju Lakshmi Kandasamy Dhevendaran Balakrishnan Priya Shivaani Krishna 《Journal of biomolecular structure & dynamics》2016,34(6):1190-1200
Streptomycin, an antibiotic used against microbial infections, inhibits the protein synthesis by binding to ribosomal protein S12, encoded by rpsL12 gene, and associated mutations cause streptomycin resistance. A streptomycin resistant, Lysinibacillus sphaericus DSLS5 (MIC >300 µg/mL for streptomycin), was isolated from a marine sponge (Tedania anhelans). The characterisation of rpsL12 gene showed a region having similarity to long terminal repeat sequences of murine lukemia virus which added 13 amino acids for loop formation in RpsL12; in addition, a K56R mutation which corresponds to K43R mutation present in streptomycin-resistant Escherichia coli is also present. The RpsL12 protein was modelled and compared with that of Lysinibacillus boronitolerans, Escherichia coli and Mycobacterium tuberculosis. The modelled proteins docked with streptomycin indicate compound had less affinity. The effect of loop on streptomycin resistance was analysed by constructing three different models of RpsL12 by, (i) removing both loop and mutation, (ii) removing the loop alone while retaining the mutation and (iii) without mutation having loop. The results showed that the presence of loop causes streptomycin resistance (decreases the affinity), and it further enhanced in the presence of mutation at 56th codon. Further study will help in understanding the evolution of streptomycin resistance in organisms. 相似文献
47.
All cellular proteins are synthesized by the ribosome, an intricate molecular machine that translates the information of protein coding genes into the amino acid alphabet. The linear polypeptides synthesized by the ribosome must generally fold into specific three-dimensional structures to become biologically active. Folding has long been recognized to begin before synthesis is complete. Recently, biochemical and biophysical studies have shed light onto how the ribosome shapes the folding pathways of nascent proteins. Here, we discuss recent progress that is beginning to define the role of the ribosome in the folding of newly synthesized polypeptides. 相似文献
48.
The emergence of antibiotic-resistant bacterial strains is a widespread problem in contemporary medical practice and drug design. It is therefore important to elucidate the underlying mechanism in each case. The methyltransferase AviRa from Streptomyces viridochromogenes mediates resistance to the antibiotic avilamycin, which is closely related to evernimicin, an oligosaccharide antibiotic that has been used in medical studies. The structure of AviRa was determined by X-ray diffraction at 1.5A resolution. Phases were obtained from one selenomethionine residue introduced by site-directed mutagenesis. The chain-fold is similar to that of most methyltransferases, although AviRa contains two additional helices as a specific feature. A putative-binding site for the cofactor S-adenosyl-L-methionine was derived from homologous structures. It agrees with the conserved pattern of interacting amino acid residues. AviRa methylates a specific guanine base within the peptidyltransferase loop of the 23S ribosomal RNA. Guided by the target, the enzyme was docked to the cognate ribosomal surface, where it fit well into a deep cleft without contacting any ribosomal protein. The two additional alpha-helices of AviRa filled a depression in the surface. Since the transferred methyl group of the cofactor is in a pocket beneath the enzyme surface, the targeted guanine base has to flip out for methylation. 相似文献
49.
Lan Phuong Nguyen Huong Thi Nguyen Hyo Jeong Yong Arfaxad Reyes-Alcaraz Yoo-Na Lee Hee-Kyung Park Yun Hee Na Cheol Soon Lee Byung-Joo Ham Jae Young Seong Jong-Ik Hwang 《Molecules and cells》2020,43(11):909
Cytosolic Ca2+ levels ([Ca2+]c) change dynamically in response to inducers, repressors, and physiological conditions, and aberrant [Ca2+]c concentration regulation is associated with cancer, heart failure, and diabetes. Therefore, [Ca2+]c is considered as a good indicator of physiological and pathological cellular responses, and is a crucial biomarker for drug discovery. A genetically encoded calcium indicator (GECI) was recently developed to measure [Ca2+]c in single cells and animal models. GECI have some advantages over chemically synthesized indicators, although they also have some drawbacks such as poor signal-to-noise ratio (SNR), low positive signal, delayed response, artifactual responses due to protein overexpression, and expensive detection equipment. Here, we developed an indicator based on interactions between Ca2+-loaded calmodulin and target proteins, and generated an innovative GECI sensor using split nano-luciferase (Nluc) fragments to detect changes in [Ca2+]c. Stimulation-dependent luciferase activities were optimized by combining large and small subunits of Nluc binary technology (NanoBiT, LgBiT:SmBiT) fusion proteins and regulating the receptor expression levels. We constructed the binary [Ca2+]c sensors using a multicistronic expression system in a single vector linked via the internal ribosome entry site (IRES), and examined the detection efficiencies. Promoter optimization studies indicated that promoter-dependent protein expression levels were crucial to optimize SNR and sensitivity. This novel [Ca2+]c assay has high SNR and sensitivity, is easy to use, suitable for high-throughput assays, and may be useful to detect [Ca2+]c in single cells and animal models. 相似文献
50.
Mutagenesis of 16S rRNA C1409-G1491 base-pair differentiates between 6'OH and 6'NH3+ aminoglycosides 总被引:2,自引:0,他引:2
Pfister P Hobbie S Brüll C Corti N Vasella A Westhof E Böttger EC 《Journal of molecular biology》2005,346(2):467-475
Using a single rRNA allelic Gram-positive model system, we systematically mutagenized 16S rRNA positions 1409 and 1491 to probe the functional relevance of structural interactions between aminoglycoside antibiotics and the A-site rRNA that were suggested by X-ray crystallography. At the structural level, the interaction of the 2-deoxystreptamine aminoglycosides with the rRNA base-pair C1409-G1491 has been suggested to involve the following features: (i) ring I of the disubstituted 2-deoxystreptamines stacks upon G1491 and H-bonds to the Watson-Crick edge of A1408; (ii) ring III of the 4,5-disubstituted aminoglycosides shows hydrogen bonding to G1491. However, we found that mutants with altered 16S rRNA bases 1409 and 1491 discriminated poorly between 4,5-disubstituted and 4,6-disubstituted 2-deoxystreptamines, but differentially affected aminoglycosides with a hydroxyl group versus an ammonium group at position 6' of ring I, e.g. G1491U conferred high-level drug resistance to paromomycin and geneticin, but not to neomycin, tobramycin or gentamicin. 相似文献