Phosphorylation in Yeast.

Background: -Phosphorylation is the addition of a orthophosphate (PO4) group to a protein or another(prenominal)(prenominal) organic molecule. Protein phosphorylation in particular plays a meaning(prenominal) place in a wide grasp of cellular carry startes. In Biochemistry protein phosphorylation has made a signifi quite a littlet contribution in researches throughout una manage biological fields. If we present at the front researches, in 1906 Phoebus Levene at Rockefeller institute, place phosphate in the protein Vitellin and after(prenominal) that in 1933 he detected phosphoserine in Casein, a milk protein. But it wasn?t until twenty eld to begin with Eugene Kennedy exposit the beginning ?enzymatic phosphorylation of proteins?. Phosphorylation of proteins is an important restrictive weapon which occurs in both prokaryotes and eukaryotes. Enzymes called kinases, which atomic fall 18 utilise in phosphorylation, be tough in this process. During the process bo th(prenominal) enzymes and receptors atomic number 18 switched ?on? or ?off? by phosphorylation and dephosphorylation. Reversible protein phosphorylation provides a major(ip) regulatory mechanism in eukaryotic cells. Due to last up variant of amino vinegarish resi cods producing a relatively limited bar of experimentally identified phosphorylation sites, thither is no reliable prediction of such(prenominal) sites. Phosphorylation usually occurs on serine, threonine and tyrosine residues in eukaryotic proteins. more everywhere, in prokaryotic proteins phosphorylation takes place on toiletteonic amino biting residues such as histidine, arginine or lysine. Protein phosphorylation catalysed by protein kinases plays a major role in cellular intercommunicate. in that respect argon thousands of unequivocal phosphorylation sites in a given cell because there are more varied kinds of proteins in any cell. It has been estimated that 1/tenth to ½ of proteins are phosph orylated. Phosphorylation occurs mostly on m! ultiple distinct sites on a given protein. Phosphorylation of any site on a given protein smoke change function of fixture of that protein. at heart a protein, phosphorylation can occur on several amino acids. Phosphorylation on serine is most common, followed by threonine.. Protein kinases shape on and alter the activity of particular proposition proteins. These are employ extensively to transplant signals and control complex processes in cells. Up to 500 different kinases find been identified in humans. A typical eukaryotic cell has the capacity to make faithful 30,000 different proteins, which catalyse thousands of different reactions involving many metabolites. Cyclin-dependent kinases (CDK) belong to a group of protein kinases primitively discovered as being convoluted in the ordination of the cell cycle. CDKs phosphorylate proteins on serine and threonine amino acid residues: they are serine/threonine kinases. A cyclin-dependent kinase is activated by association with a cyclin, forming a cyclin-dependent kinase complex. maven of the experimental conditioninuss to understand which is employ in the clause is a ? time motif?, which is a root or an amino acid sequence pattern that is far-flung and has, or is conjectured to oblige a biological significance. Within a sequence or entropybase of sequences, researchers search and find motifs exploitation computer-based techniques of sequence analysis, such as BLAST. Bioinformatics field black markets to use such techniques. The virgin engineering in market these days is the protein- flake applied recognition which allows thorough analysis of biochemical activities and can be apply to analyze protein kinases as well. Protein micro hosts devising use of new developments in protein engineering and detection stick out recently emerged. The basic construction of such protein chips has several(prenominal) similarities to deoxyribonucleic acid chips, such as the use of glass or duct ile surface continue with an array of molecules. Wit! h fluorescent markers or other methods of detection divine revelation the spots that score captured these proteins, protein micro arrays are being apply as powerful tools in high-throughput proteomics and dose uncovering. At this time, protein-chip engineering science concentrates on understanding molecular pathways that in turn rails to useful information for drug discovery and which can be applied to molecular diagnostics. CRITIQUE: -Realizing the surfaceableness of protein phosphorylation which controls many cellular processes, the authors of this article have identified over 4000 phosphorylation events which involved over a thousand proteins. They used the proteome-chip technology to describe the in vitro substrates recognise by the protein kinases. The authors believe that the results go away shed sportsmanlike on mechanisms and roles of protein phosphorylation in eukaryotes. This is understood as protein phosphorylation controls many processes in the cells. Moreove r barms possess many protein kinases and avail as practiced organisms for study. The authors study different protein kinases along with A sensations which are a family of enzymes whose activity is dependent on the train of cyclic AMP. Protein kinase A has several functions in cell like glycogen and lipid metabolism. A brief note about the protein kinases would have been useful. They then carried out proteome micro arrays on the kinases by using 33-P label isotope on ATP. The authors can be commended no their use of damaging and positive controls of the experiment. They made the experiment easier by using a freehanded number of proteins and sources for identification of phosphorylation signals. They as well as used incubated slides in absence of kinases so as to ensnare if any autophosphorylated. This served as a blank. They measured the extent of phosphorylation by algorithmic methods. Although this method whitethorn be 70 to 80 percent (according to various sources) effective, it is germane(predicate) here as many kin! ases need to be analyzed and the method is widely canonical in this era of technology. The phosphorylated proteins were marked as positive substrates in the results. According to the results, since many phosphorylation events occurred, the authors said that separately kinase had a certain(p) amount (between 1 and 256) of substrates with an average of forty seven substrates per enzyme. nevertheless though criticizing the authors for not giving accurate results would be incorrect, mean lull can be made that an average as such cannot be taken which has a standard aside so high but for the information of reader it can be accepted. What this means is that an average for kinase activity would not be relevant in this case. The authors mentioned that more than one kinases had about ternary substrates indicating specificity. There may be an element of doubt in this matter. Enzymes are highly specific molecules. There may have been the equivalent kinase they analyzed but due to impro per labeling, gave different results. It is becalm likely that the enzymes have more than one substrate. The term ? musical theater arrangement computes were the largest proteins phosphorylated? was not wide of the marky understood. They ground that the kinases phosphorylated the proteins which resided in the aforementioned(prenominal) cell compartment or which came under the same function and this was give with an example. The authors then carried out a test in which they assayed substrates of redbird kinases to test various other factors. This complex test gave some straightforward results as would be expected. This proved that the kinases controlled protein levels directly or indirectly. The went shape up to say that using the proteome micro array technology helped them identify many genuine substrates and proved that phosphorylation modify protein levels with a marked difference. Next, they examined the kinases which were closely related to a substrate. They used ye ast protein kinase A homologues. They went on to dete! rmine if these homologues were operationally redundant. From results they think that each homologue verified specificity. More than 3/4th of bovid cAMP-dependent protein kinase physical objects were withal substrates of the homologues. The slides with 90% substrate point of crosswalk depicted that each homologue had distinct substrate specificity. A good diagram gave information on how the proteome array test was carried out by in vivo institution. enter 2(a) showed that TPK1 had highest substrate recognition visibleness. flesh 2(b) showed how cyclin affected substrate recognition. It was as well found that position and organise of the substrate restricted the kinase from phosphorylation. Later, the 4,200 proteins-substrate phosphorylations were assembled into an in vitro meshing to be analyzed and a mapping was seduced. From this they found that identification of substrate assist in defining the role of kinase in yeast signaling networks. They said the low overlap b etween the data sets was due to kinase-substrate interaction had lo covering affinities and were not detectable in the assay. firing in depth with the phosphorylation network, in which the kinase and substrate were present in the same compartment or functional category, resulted in 33% and 18.4% interactions, respectively. They outlined a limitation to this onrush of enrichment saying that this advance may give false negatives if the data interpreted were inaccurate or incomplete. The figure of in vivo phosphorylation map given was similar to that of the yeast, genus Saccharomyces cerevisiae.

then after, to explain how phosphorylation is combine in global networks, they combine phos phorylation data with musical arrangement factor bin! ding to generate an incorporated regulatory network for yeast. arrangement factor is a protein that binds to specific sequence of DNA and t hence controls the transfer of familial information from DNA to RNA. The number of transcription factors which can be found in an organism increases with the genome size and the larger genomes tend to have more transcription factors per gene. Then , within the network they looked for common regulatory modules. Eight were discover from which six were of high importance statistically. The authors think their study is the first global investigating of protein phosphorylation by protein kinases using an unbiased approach. In the article, the term scaffold refers to ligand-binding domains of proteins, which are engineered into multiple variants capable of binding divers(a) target molecules with antibody-like properties of specificity and affinity. The authors have also studied previous in vivo phosphorylations, so that would give them an bare e dge on the return they pursued. When trust their data with others, it matched their studies as well. Even though the authors flattery proteome chip technology, it has its side set up but on large scale protein purgation, it has been proven effective. limitation of proteome chips:An important obstacle in fabricating proteome chips is the need to scram and spew a large number of proteins in a well-timed manner. In recent years there has been rapid promote in improving the throughput process and implementing alternative approaches. In vitro transcription-translation systems allow an alternative approach for producing proteins. Scientists have taken this process one step further by directly applying in vitro transcription-translation systems to protein chip fabrication. The obvious advantage is that the dear(predicate) and time-consuming steps of ORF cloning, protein expression and purification can be eliminated. However, because of inherent problems with the in vitro system , the size of proteins that can be produced is limite! d, and the reproducibility of the system is not high. One possible limitation of this approach is that problems with protein folding and the integrity of the proteins printed on the chips might sometimes produce false-positives or missed points. However, the possibility of using a range of different DNA probes, each with a specific modification, to profile cellular proteins on the whole-proteome level is a good prospect. If, as shown here, one or two proteins can be identified with each probe that is applied, a unassailable database can be built for further biological validation and reference. In the article, the term scaffold refers to ligand-binding domains of proteins, which are engineered into multiple variants capable of binding diverse target molecules with antibody-like properties of specificity and affinity. The authors have also studied previous in vivo phosphorylations so that would give them an extra edge on the topic they pursued. When combining their data with others , it matched their studies as well. Conclusion: -Overall, the authors did an glorious job in the analysis of phosphorylation of yeast. They used the latest technology available to create algorithms and networks which helped in analyzing the substrate-kinase relationships. The proteome chips allows rapid and automated final result to protein phosphorylation, saves time and is efficient than other out-dated techniques. The article also gives an cleverness into what could be further done to take this topic to another level for research, and hence can lay a ft to it. References: -Global analysis of protein phosphorylation in yeast: Jason?Snyder, 2005 nature publishing group. Nelson and Cox, Lehninger principles of biochemistry, fifth edition:2008Koch C, et al. mobile phone cycle regulated transcription in yeast. 1994 Jun;6(3):451-9. Nasmyth K. Control of the yeast cell cycle by the Cdc28 protein kinase. 1993 Apr; 5(2):166-79. hypertext transfer protocol://www.devicelink.com/ivdt/ar chive/02/07/002.htmlhttp://www.hosted-webs.com/phosph! orylation/http://en.wikipedia.org/wiki/Phosphorylationhttp://www.jbc.org/cgi/content/abstract/252/9/3082http://biowww.net/detail-1142.htmlhttp://en.wikipedia.org/wiki/AMP-activated_protein_kinasehttp://www.rockefeller.edu/labheads/crossf/cdk.htmlhttp://networks.gersteinlab.org/http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2576280http://www.functionalgenomics.org.uk/sections/resources/protein_arrays.htmhttp://genomebiology.com/2001/2/10/reports/0035 If you want to get a full essay, order it on our website: OrderEssay.net

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