2.22 Protein Synthesis.docx
... polypeptide. As shown below, this is a fairly involved process. DNA contains the genetic code that is used as a template to create mRNA in a process known as transcription. The mRNA then moves out of the nucleus into the cytoplasm where it serves as the template for translation, where tRNAs bring in ...
... polypeptide. As shown below, this is a fairly involved process. DNA contains the genetic code that is used as a template to create mRNA in a process known as transcription. The mRNA then moves out of the nucleus into the cytoplasm where it serves as the template for translation, where tRNAs bring in ...
Protein Structure HW Key
... 9. Describe an α helix. Be sure to describe what stabilizes it and where the R groups are. right handed helix 3.6 aa/turn. intrachain backbone H-bonding between amino hydrogen and carbonyl oxygen 4 aa away. meaning carbonyl O from aa-1 bonded to amino nitrogen from aa #5.. side chains perpendicular ...
... 9. Describe an α helix. Be sure to describe what stabilizes it and where the R groups are. right handed helix 3.6 aa/turn. intrachain backbone H-bonding between amino hydrogen and carbonyl oxygen 4 aa away. meaning carbonyl O from aa-1 bonded to amino nitrogen from aa #5.. side chains perpendicular ...
Chapter 3
... 4 Levels of structure 3. Tertiary structure – final folded shape of a globular protein – Stabilized by a number of forces – Final level of structure for proteins consisting of only a single polypeptide chain ...
... 4 Levels of structure 3. Tertiary structure – final folded shape of a globular protein – Stabilized by a number of forces – Final level of structure for proteins consisting of only a single polypeptide chain ...
Slide 1
... Breathing motions in myoglobin opens up pathways for oxygen atoms to enter its binding site or diffuse out ...
... Breathing motions in myoglobin opens up pathways for oxygen atoms to enter its binding site or diffuse out ...
1 NAME DATE ______ PER ___ INVESTIGATION 3
... In general terms, this score is calculated from a formula that takes into account the alignment of similar or identical residues, the length of the sequence, as well as any gaps introduced to align the sequences. The Expect value (E) is a parameter that describes the number of hits one can "expect" ...
... In general terms, this score is calculated from a formula that takes into account the alignment of similar or identical residues, the length of the sequence, as well as any gaps introduced to align the sequences. The Expect value (E) is a parameter that describes the number of hits one can "expect" ...
Prob_Set_2_2007
... - due Wednesday Feb 21 in class 1) Pick out a protein of known structure that is central to your research or is connected to your research interests. Download the coordinates from the Protein Data Bank (www.rcsb.org) and use a rendering program such as Chimera, Rasmol, Pymol, Molmol, iMol (Macs) etc ...
... - due Wednesday Feb 21 in class 1) Pick out a protein of known structure that is central to your research or is connected to your research interests. Download the coordinates from the Protein Data Bank (www.rcsb.org) and use a rendering program such as Chimera, Rasmol, Pymol, Molmol, iMol (Macs) etc ...
Isolation of the plc1 gene from the fission yeast
... The catalytic domain of all PLC enzymes contains two conserved regions (known as the X and Y regions) [3] and the homology of the X-region (the amino acid sequence of the X-region from several PLCs is shown as the single letter code - residues identical to those in the S.cerevisiae enzyme are indica ...
... The catalytic domain of all PLC enzymes contains two conserved regions (known as the X and Y regions) [3] and the homology of the X-region (the amino acid sequence of the X-region from several PLCs is shown as the single letter code - residues identical to those in the S.cerevisiae enzyme are indica ...
Structural Studies of Sgt2, a Component of the GET Pathway that
... diffusion technique. Crystals diffracted to 2.6-Å resolution on a home X-ray source, and belonged to the orthorhombic space group, C2221 with unit cell dimensions a= 72.378. Å, b= 81.413 Å, c= 109.349 Å, and α=β=γ=90°. The crystal structure was determined by molecular replacement and contained two m ...
... diffusion technique. Crystals diffracted to 2.6-Å resolution on a home X-ray source, and belonged to the orthorhombic space group, C2221 with unit cell dimensions a= 72.378. Å, b= 81.413 Å, c= 109.349 Å, and α=β=γ=90°. The crystal structure was determined by molecular replacement and contained two m ...
Homology Detection
... Many proteins are multi-domain proteins Many domains are found in different contexts – domain shuffling Exons in eukaryotic genomes often correspond to domains Therefore, protein classification schemes build on domains not on entire proteins ...
... Many proteins are multi-domain proteins Many domains are found in different contexts – domain shuffling Exons in eukaryotic genomes often correspond to domains Therefore, protein classification schemes build on domains not on entire proteins ...
1. Protein Interactions
... Size: Larger molecules have more active sites Structure: the stability (strength of intramolecular bonds) and molecule unfolding rate ...
... Size: Larger molecules have more active sites Structure: the stability (strength of intramolecular bonds) and molecule unfolding rate ...
The Synthesis and Expression of Peptide CbnY Thomas Doerksen
... The King’s University ORAL Collaboration Bacteriocins are small antimicrobial peptides produced by bacteria, and have great potential in the food industry as an alternative to antibiotics. The two-component bacteriocins, produced by various strains of lactic acid bacteria, display optimal activity w ...
... The King’s University ORAL Collaboration Bacteriocins are small antimicrobial peptides produced by bacteria, and have great potential in the food industry as an alternative to antibiotics. The two-component bacteriocins, produced by various strains of lactic acid bacteria, display optimal activity w ...
Asymptotics of RNA Shapes: secondary structure
... Computational molecular biology is concerned with the development of mathematical models and novel algorithms to solve fundamental problems of molecular biology in the post-genome era. A central problem of structural biology concerns the algorithmic prediction of the structure of RNA and protein fro ...
... Computational molecular biology is concerned with the development of mathematical models and novel algorithms to solve fundamental problems of molecular biology in the post-genome era. A central problem of structural biology concerns the algorithmic prediction of the structure of RNA and protein fro ...
Two Rules on Protein-Ligand Interactions Xiaodong Pang1, 2
... of a protein and the highest occupied molecular orbital (HOMO) of its ligand, not between the HOMOs of a protein and the LUMO of its ligand. The other rule is only those residues or atoms located both on the LUMOs of a protein and in a surface pocket of a protein are activity residues or activity at ...
... of a protein and the highest occupied molecular orbital (HOMO) of its ligand, not between the HOMOs of a protein and the LUMO of its ligand. The other rule is only those residues or atoms located both on the LUMOs of a protein and in a surface pocket of a protein are activity residues or activity at ...
poster - Computer Science and Engineering
... domain (TEN) of the telomerase reverse transcriptase subunit (TERT) from Tetrahymena has been reported. In this study, we used a comparative strategy, in which sequence-based machine learning approaches were integrated with computational structural modeling, to explore the potential conservation of ...
... domain (TEN) of the telomerase reverse transcriptase subunit (TERT) from Tetrahymena has been reported. In this study, we used a comparative strategy, in which sequence-based machine learning approaches were integrated with computational structural modeling, to explore the potential conservation of ...
Amino Acids
... • Extended stretches of 5 or more aa are called βstrands • β-strands organized next to each other make β-sheets • If adjacent strands are oriented in the same direction (N-end to C-end), it is a parallel β-sheet, if adjacent strands run opposite to each other, it is an antiparallel β-sheet. There ca ...
... • Extended stretches of 5 or more aa are called βstrands • β-strands organized next to each other make β-sheets • If adjacent strands are oriented in the same direction (N-end to C-end), it is a parallel β-sheet, if adjacent strands run opposite to each other, it is an antiparallel β-sheet. There ca ...
Basic Overview of Bioinformatics Tools and Biocomputing
... comparison of the two input sequences • Local Alignment looks for local stretches of similarity and tries to align the most similar segments • Algorithms used may be similar, but output different, statistics needed to assess results ...
... comparison of the two input sequences • Local Alignment looks for local stretches of similarity and tries to align the most similar segments • Algorithms used may be similar, but output different, statistics needed to assess results ...
Abstract: The backbone chain of a protein (called its fold) can be
... TT2 - Willie Taylor (National Institute for Medical Research - UK) Protein Folds, Knots and Tangles Saturday – 10:40-12:00 English (Translation provided by R. Dilão and R. Mondaini) ...
... TT2 - Willie Taylor (National Institute for Medical Research - UK) Protein Folds, Knots and Tangles Saturday – 10:40-12:00 English (Translation provided by R. Dilão and R. Mondaini) ...
Absolute quantification of proteins and phosphoproteins from cell
... comparative analysis protein identified by MS limited to abundant proteins ...
... comparative analysis protein identified by MS limited to abundant proteins ...
Archaebacterial virus SSV1 encodes a putative DnaA
... In a previous study (1) we have shown that proteins containing the purine NTP-binding sequence pattern (2) and involved in genome replication or DNA precursor synthesis are extremely wide-spread products of the genomes of various viruses. In particular, all viruses with double-stranded (ds) DNA geno ...
... In a previous study (1) we have shown that proteins containing the purine NTP-binding sequence pattern (2) and involved in genome replication or DNA precursor synthesis are extremely wide-spread products of the genomes of various viruses. In particular, all viruses with double-stranded (ds) DNA geno ...
Proteomics techniques used to identify proteins
... separated by 2D gel electrophoresis, Coomassie blue-stained and photographed (three gels per sample). Average differences in protein expression were quantified with Dymension-2 Software. The proteins differentially expressed after CEES exposure are marked with red circles. Protein spots were excised ...
... separated by 2D gel electrophoresis, Coomassie blue-stained and photographed (three gels per sample). Average differences in protein expression were quantified with Dymension-2 Software. The proteins differentially expressed after CEES exposure are marked with red circles. Protein spots were excised ...
Homology modeling
Homology modeling, also known as comparative modeling of protein, refers to constructing an atomic-resolution model of the ""target"" protein from its amino acid sequence and an experimental three-dimensional structure of a related homologous protein (the ""template""). Homology modeling relies on the identification of one or more known protein structures likely to resemble the structure of the query sequence, and on the production of an alignment that maps residues in the query sequence to residues in the template sequence. It has been shown that protein structures are more conserved than protein sequences amongst homologues, but sequences falling below a 20% sequence identity can have very different structure.Evolutionarily related proteins have similar sequences and naturally occurring homologous proteins have similar protein structure.It has been shown that three-dimensional protein structure is evolutionarily more conserved than would be expected on the basis of sequence conservation alone.The sequence alignment and template structure are then used to produce a structural model of the target. Because protein structures are more conserved than DNA sequences, detectable levels of sequence similarity usually imply significant structural similarity.The quality of the homology model is dependent on the quality of the sequence alignment and template structure. The approach can be complicated by the presence of alignment gaps (commonly called indels) that indicate a structural region present in the target but not in the template, and by structure gaps in the template that arise from poor resolution in the experimental procedure (usually X-ray crystallography) used to solve the structure. Model quality declines with decreasing sequence identity; a typical model has ~1–2 Å root mean square deviation between the matched Cα atoms at 70% sequence identity but only 2–4 Å agreement at 25% sequence identity. However, the errors are significantly higher in the loop regions, where the amino acid sequences of the target and template proteins may be completely different.Regions of the model that were constructed without a template, usually by loop modeling, are generally much less accurate than the rest of the model. Errors in side chain packing and position also increase with decreasing identity, and variations in these packing configurations have been suggested as a major reason for poor model quality at low identity. Taken together, these various atomic-position errors are significant and impede the use of homology models for purposes that require atomic-resolution data, such as drug design and protein–protein interaction predictions; even the quaternary structure of a protein may be difficult to predict from homology models of its subunit(s). Nevertheless, homology models can be useful in reaching qualitative conclusions about the biochemistry of the query sequence, especially in formulating hypotheses about why certain residues are conserved, which may in turn lead to experiments to test those hypotheses. For example, the spatial arrangement of conserved residues may suggest whether a particular residue is conserved to stabilize the folding, to participate in binding some small molecule, or to foster association with another protein or nucleic acid. Homology modeling can produce high-quality structural models when the target and template are closely related, which has inspired the formation of a structural genomics consortium dedicated to the production of representative experimental structures for all classes of protein folds. The chief inaccuracies in homology modeling, which worsen with lower sequence identity, derive from errors in the initial sequence alignment and from improper template selection. Like other methods of structure prediction, current practice in homology modeling is assessed in a biennial large-scale experiment known as the Critical Assessment of Techniques for Protein Structure Prediction, or CASP.