IMPERIUS :INTO THE WORLD OF PROTEIN DATA BANK !!!!

Assalammualaikum w.b.t

Today there is another experience that we want to share with you! :)

It is all about Protein Data Bank

In this data bank we have plenty of  proteins structure which can be opened with raswin software . You can download this raswin app from this link : :raswin .before you can view the protein structures, you have todownload pdb file(text) from rscb protein bank website. Once we finish download it we can view them using the raswin app that we have download just now. So here are some protein that we can share with all of you.

Prolyl Oligopeptidase	We report the synthesis and in vitro activity of a series of novel pyrrolidinyl pyridones and pyrazinones as potent inhibitors of prolyl oligopeptidase (POP). Within this series, compound 39 was co-crystallized within the catalytic site of a human chimeric POP protein which provided a more detailed understanding of how these inhibitors interacted with the key residues within the catalytic pocket.
Thermolysin	Like all bacterial extracellular proteases thermolysin is first synthesised by the bacterium as a pre-proenzyme.[5] Thermolysin is synthesized as a pre-proenzyme consisting of a signal peptide 28 amino acids long, a pro-peptide 204 amino acids long and the mature enzyme itself 316 amino acids in length. The signal peptide acts as a signal for translocation[disambiguation needed] of pre-prothermolysin to the bacterial cytoplasmic membrane. In the periplasm pre-prothermolysin is then processed into prothermolysin by a signal peptidase. The prosequence then acts as a molecular chaperone and leads to autocleavage of the peptide bond linking pro and mature sequences. The mature protein is then secreted into the extracellular medium.[6]
Oligopeptidsae	Oligopeptidase is an enzyme that cleaves peptides but not proteins, a property that is due to its structure: the active site of this enzyme is located at the end of a narrow cavity which can only be reached by peptides. These oligopeptides, peptides, predominantely smaller than 30 amino acids in length, play essential roles as hormones, in the surveillance against pathogens, and in neurological activities. Therefore these molecules constantly need to be specifically generated and inactivated, which is the role of the oligopeptidases. Oligopeptidase is a term coined in 1979 to designate a sub-group of the endopeptidases,[1][2] which are not involved in the digestion nor in the processing of proteins like the pancreatic enzymes, proteasomes, cathepsins among many others. The prolyl-oligopeptidase or prolyl endopeptidase (POP) is a good example of how an oligopeptidase interacts with and metabolizes an oligopeptide. The peptide has first to penetrate into a 4 Å hole on the surface of the enzyme in order to reach an 8,500Å3 internal cavity, where the active site is located.[3][4] The activity of the oligopeptidase is rather selective, as experimental evidence demonstrated. They suggest that the oligopeptide should display specific structures in order to access the active site of the enzyme.[5] This peculiar mechanism of action sets the oligopeptidases at the end of the protein processing pathway, acting on specific oligopeptides, allowing them to play essential physiological and pathological roles, from microorganisms to man.
Signal Peptidase	Signal peptide peptidase A (SppA) is a membrane-bound self-compartmentalized serine protease that functions to cleave the remnant signal peptides left behind after protein secretion and cleavage by signal peptidases. SppA is found in plants, archaea and bacteria. Here, we report the first crystal structure of a Gram-positive bacterial SppA. The 2.4-Å-resolution structure of Bacillus subtilis SppA (SppA(BS)) catalytic domain reveals eight SppA(BS) molecules in the asymmetric unit, forming a dome-shaped octameric complex. The octameric state of SppA(BS) is supported by analytical size-exclusion chromatography and multi-angle light scattering analysis. Our sequence analysis, mutagenesis and activity assays are consistent with Ser147 serving as the nucleophile and Lys199 serving as the general base; however, they are located in different region of the protein, more than 29 Å apart. Only upon assembling the octamer do the serine and lysine come within close proximity, with neighboring protomers each providing one-half of the catalytic dyad, thus producing eight separate active sites within the complex, twice the number seen within Escherichia coli SppA (SppA(EC)). The SppA(BS) S1 substrate specificity pocket is deep, narrow and hydrophobic, but with a polar bottom.
Collagenase	The X-ray crystal structure of a 19 kDa active fragment of human fibroblast collagenase has been determined by the multiple isomorphous replacement method and refined at 1.56 A resolution to an R-factor of 17.4%. The current structure includes a bound hydroxamate inhibitor, 88 waters and three metal atoms (two zincs and a calcium). The overall topology of the enzyme, comprised of a five stranded beta-sheet and three alpha-helices, is similar to the thermolysin-like metalloproteinases. There are some important differences between the collagenase and thermolysin families of enzymes. The active site zinc ligands are all histidines (His-218, His-222, and His-228). The presence of a second zinc ion in a structural role is a unique feature of the matrix metalloproteinases. The binding properties of the active site cleft are more dependent on the main chain conformation of the enzyme (and substrate) compared with thermolysin. A mechanism of action for peptide cleavage similar to that of thermolysin is proposed for fibroblast collagenase.