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101.
Kinetic studies of macromolecular ligand-ligate interaction have generated ample interest since the advent of plasmon resonance
based instruments like BIAcore. Most of the studies reported in literature assume a simple 1 : 1 Langmuir binding and complete
reversibility of the system. However we observed that in a high affinity antigen-antibody system [human chorionic gonadotropin-monoclonal
antibody (hCG-mAb)] dissociation is insignificant and the sensogram data cannot be used to measure the equilibrium and kinetic
parameters. At low concentrations of mAb the complete sensogram could be fitted to a single exponential. Interestingly we
found that at higher mAb concentrations, the binding data did not conform to a simple bimolecular model. Instead, the data
fitted a two-step model, which may be because of surface heterogeneity of affinity sites. In this paper, we report on the
global fit of the sensograms. We have developed a method by which a single two-minute sensogram can be used in high affinity
systems to measure the association rate constant of the reaction and the functional capacity of the ligand (hCG) immobilized
on the chip. We provide a rational explanation for the discrepancies generally observed in most of the BIAcore sensograms 相似文献
102.
103.
Ribozymes: A modern tool in medicine 总被引:6,自引:0,他引:6
Since the discovery of ribozymes and self-splicing introns, it has been estimated that this biological property of RNA combined with other recombinant DNA technologies would become a tool to combat viral diseases and control oncogenes. These goals seem like a distinct possibility now. However, there is still a lot to be learned about the mobility of RNA inside the cells and the cellular factors that can impede ribozyme action in order to capitalize fully on the targeted RNA inactivation property of ribozymes. The most effective approach to maximize ribozyme function in a complex intracellular environment is to understand as much as possible about the intracellular fate of the RNA that is being targeted. As new techniques in cell biology become available, such understanding will be less problematic. Fundamental studies of ribozyme structure and mechanism of catalysis are flourishing both at the academic and industrial level and it can be expected that many new developments will continue to take place in these areas in the near future. Here, we review the design, stability and therapeutic application of these technologies illustrating relevant gene targets and applications in molecular medicine. Relevant problems in implementation of the technology, group I and II introns and the differences in applications, ribozyme structure and the application of this technology to virus attack and oncogene downregulation are discussed. Also some of the latest RNA-based technologies such as siRNA, RNA/DNA duplexes and RNA decoys have been introduced. 相似文献
104.
Tendulkar AV Wangikar PP Sohoni MA Samant VV Mone CY 《Journal of molecular biology》2003,334(1):157-172
We present a scheme for the classification of 3487 non-redundant protein structures into 1207 non-hierarchical clusters by using recurring structural patterns of three to six amino acids as keys of classification. This results in several signature patterns, which seem to decide membership of a protein in a functional category. The patterns provide clues to the key residues involved in functional sites as well as in protein-protein interaction. The discovered patterns include a "glutamate double bridge" of superoxide dismutase, the functional interface of the serine protease and inhibitor, interface of homo/hetero dimers, and functional sites of several enzyme families. We use geometric invariants to decide superimposability of structural patterns. This allows the parameterization of patterns and discovery of recurring patterns via clustering. The geometric invariant-based approach eliminates the computationally explosive step of pair-wise comparison of structures. The results provide a vast resource for the biologists for experimental validation of the proposed functional sites, and for the design of synthetic enzymes, inhibitors and drugs. 相似文献
105.
Microtubule-dependent oligomerization of tau. Implications for physiological tau function and tauopathies 总被引:1,自引:0,他引:1
Makrides V Shen TE Bhatia R Smith BL Thimm J Lal R Feinstein SC 《The Journal of biological chemistry》2003,278(35):33298-33304
The accumulation of abnormal tau filaments is a pathological hallmark of many neurodegenerative diseases. In 1998, genetic analyses revealed a direct linkage between structural and regulatory mutations in the tau gene and the neurodegenerative disease, frontotemporal dementia with parkinsonism linked to chromosome 17 (FTDP-17). Importantly, the FTDP-17 phenotype is transmitted in a dominant rather than a recessive manner. However, the underlying molecular mechanisms causing disease remain uncertain. The most common molecular mechanism generating dominant phenotypes is the loss of function of a multimeric complex containing both mutant and wild-type subunits. Therefore, we sought to determine whether tau might normally function as a multimer. We co-incubated 35S-radiolabeled tau and biotinylated tau with taxol stabilized microtubules, at very low molar ratios of tau to tubulin. Subsequent covalent cross-linking followed by affinity-precipitation of the biotinylated tau revealed the formation of microtubule-dependent tau oligomers. We next used atomic force microscopy to independently assess this conclusion. Our results are consistent with the hypothesis that tau forms oligomers upon binding to microtubules. In addition to providing insights into normal tau action, our findings lead us to propose that one mechanism by which mutations in tau may cause cell death is through the formation of tau complexes containing mutant tau molecules in association with wild-type tau. These wild-type-mutant tau complexes may possess altered biological and/or biophysical properties that promote onset of the FTDP-17 phenotype, including neuronal cell death by either altering normal tau-mediated regulation of microtubule-dependent cellular functions and/or promoting the formation of pathological tau aggregates. 相似文献
106.
Glucose metabolism in cancer. Evidence that demethylation events play a role in activating type II hexokinase gene expression 总被引:5,自引:0,他引:5
One of the "signature" phenotypes of highly malignant, poorly differentiated tumors, including hepatomas, is their remarkable propensity to utilize glucose at a much higher rate than normal cells, a property frequently dependent on the marked overexpression of type II hexokinase (HKII). As the expression of the gene for this enzyme is nearly silent in liver tissue, we tested the possibility that DNA methylation/demethylation events may be involved in its regulation. Initial studies employing methylation restriction endonuclease analysis provided evidence for differential methylation patterns for the HKII gene in normal hepatocytes and hepatoma cells, the latter represented by a highly glycolytic model cell line (AS-30D). Subsequently, sequencing following sodium bisulfite treatment revealed 18 methylated CpG sites within a CpG island (-350 to +781 bp) in the hepatocyte gene but none in that of the hepatoma. In addition, treatment of a hepatocyte cell line with the DNA methyltransferase inhibitors, 5'-azacytidine and 5'-aza-2'-deoxycytidine, activated basal expression levels of HKII mRNA and protein. Finally, stably transfecting the hepatocyte cell line with DNA demethylase also resulted in activating the basal expression levels of HKII mRNA and protein. These novel observations indicate that one of the initial events in activating the HKII gene during either transformation or tumor progression may reside at the epigenetic level. 相似文献
107.
A duplication growth model of gene expression networks 总被引:8,自引:0,他引:8
108.
Amyloid beta protein (AbetaP) is the major fibrillar constituent of senile plaques. However, no causative role for AbetaP-fibers in Alzheimer's disease (AD) pathology is established. Globular AbetaPs are continuously released during normal cellular metabolism at pico- to nano-molar concentration. We used atomic force microscopy (AFM) to examine aggregation of freshly prepared AbetaP(1-42) and to examine the role of AbetaP concentration, imaging medium (air, water, or PBS) and agonists/antagonists on AbetaP-fibrillogenesis. At even very high and non-physiological AbetaP concentrations, 24-48 h of real-time AFM imaging (a) in water show only multiple layers of globular aggregates and no fibrils and (b) in PBS show mainly the globular structures and some short fibrils. On-line addition of Zn, an agonist for AbetaP-fibrillogenesis, induced a slow but non-fibrillar aggregation of globular AbetaPs. EDTA, a chelator of Zn and calcium (a modulator of AbetaP-mediated toxicity) induced a reversible change in the Zn-mediated aggregation. These results strongly suggest that no AbetaP-fibers are formed for the physiologically relevant concentration and thus the plaque-associated fibers may not account for the AD pathophysiology. 相似文献
109.
Dhingra G Kumari R Bala S Majumdar S Malhotra S Sharma P Lal S Cullum J Lal R 《Journal of industrial microbiology & biotechnology》2003,30(4):195-204
The genus Amycolatopsis is of industrial importance, as its species are known to produce commercial antibiotics. It belongs to the family Pseudonocardiaceae and has an eventful taxonomic history. Initially strains were identified as Streptomyces, then later as Nocardia. However, based on biochemical, morphological and molecular features, the genus Amycolatopsis, containing seventeen species, was created. The development of molecular genetic techniques for this group has been slow.
The scarcity of molecular genetic tools including stable plasmids, antibiotic resistance markers, transposons, reporter genes,
cloning vectors, and high efficiency transformation protocols has made progress slow, but efforts in the past decade have
led to the development of cloning vectors and transformation methods for these organisms. Some of the cloning vectors have
broad host range (pRL series) whereas others have limited host range (pMEA300 and pMEA100). The cloning vector pMEA300 has
been completely sequenced, while only the minimal replicon (pA-rep) has been sequenced from pRL plasmids. Direct transformation of mycelia and electroporation are the most widely applicable
methods for transforming species of Amycolatopsis. Conjugational transfer from Escherichia coli has been reported only in the species A. japonicum, and gene disruption and replacements using homologous recombination are now possible in some strains.
Electronic Publication 相似文献
110.
Ryan U Xiao L Read C Zhou L Lal AA Pavlasek I 《Applied and environmental microbiology》2003,69(7):4302-4307
Isolates of Cryptosporidium from the Czech Republic were characterized from a variety of different hosts using sequence and phylogenetic analysis of the 18S ribosomal DNA and the heat-shock (HSP-70) gene. Analysis expanded the host range of accepted species and identified several novel genotypes, including horse, Eurasian woodcock, rabbit, and cervid genotypes. 相似文献