Difference between revisions of "Application Exam Questions"

2003 - Consequences of Homology

A bacterial genome has been sequenced. Comparison with tRNA synthetase COGs has failed to turn up an annotation for a Glutaminyl tRNA synthetase gene. Assume that the genome sequence is complete, has been assembled without frameshift errors and all gene models are correct. The sequence for Glutaminyl tRNA synthetase has not simply been overlooked. Answer the following questions briefly.

Comment

2003 - Domains and Homology

Following an Entrez-provided links to "sh3" domains may ultimately bring you to the CDART entry for a protein. This screenshot shows the first of ten pages of results for the eukaryotic SH3 domains.

(By now, "contents, implications and use" would be too vague and general for my taste for an exam question.)

2003 - Homology

The COGs database employs a definition of orthologs that is based on reciprocal highest similarity.

You have built a homology model based on the pairwise alignment of a C. elegans Glutaminyl-tRNA synthetase sequence to a template that you have identified with a BLAST search. Upon analysis of your model structure, you note that the presumed ATP-binding site of the model appears to be blocked by an arginine sidechain.  

2003 - Expression Analysis

In order to study the coordination of gene expression in the yeast cell cycle, you have created a synchronized, growing culture of Saccharomyces cerevisiaea cells and harvested mRNA at ten successive time points along one replication cycle. You now plan to perform two-color microarray (spotted array) experiments.

2003 - Integrated processes

Read the following abstract:

Structure of TCTP reveals unexpected relationship with guanine nucleotidefree chaperones

Paul Thaw, Nicola J. Baxter, Andrea M. Hounslow, Clive Price, Jonathan P. Waltho and C. Jeremy Craven: Nature Struct Biol 8: 701–704 (2001)

The translationally controlled tumor-associated proteins (TCTPs) are a highly conserved and abundantly expressed family of eukaryotic proteins that are implicated in both cell growth and the human acute allergic response but whose intracellular biochemical function has remained elusive. We report here the solution structure of the TCTP from Schizosaccharomyces pombe, which, on the basis of sequence homology, defines the fold of the entire family. We show that TCTPs form a structural superfamily with the Mss4/Dss4 family of proteins, which bind to the GDP/GTP free form of Rab proteins (members of the Ras superfamily) and have been termed guanine nucleotide-free chaperones (GFCs). Mss4 also acts as a relatively inefficient guanine nucleotide exchange factor (GEF). We further show that the Rab protein binding site on Mss4 coincides with the region of highest sequence conservation in the TCTP family. This is the first link to any other family of proteins that has been established for the TCTP family and suggests the presence of a GFC/GEF at extremely high abundance in eukaryotic cells.

This abstract reports several pieces of data and mentions several pieces of prior information.

Note that you are not required to understand the biochemical processes that are described here, nor are you required to comment on the cell-biological implications. One of the key steps has been underlined by me - you must understand how such a conclusion can be drawn in the situation that is described. You are to summarize the flow of data: the entities that are being referred to, and the experimental and computational procedures.  
 

2003 - Integrated processes

Read the following abstract:

Insights into DNA recombination from the structure of a RAD51-BRCA2 complex.

Pellegrini L, Yu DS, Lo T, Anand S, Lee M, Blundell TL, Venkitaraman AR.: Nature 420:287-293 (2002)

In this landmark paper on the breast cancer susceptibility gene BRCA2, the authors provide an intriguing mechanistic link with RAD51, a recombinase that plays an essential role in DNA repair by facilitating homologous recombination of intact and damaged DNA strands. Sequence repeats in the BRCA2 gene were reported as early as 1996 and have allowed the authors to define and express an isolated repeat domain (BRC4). It was known that the sequence repeats mediate binding of BRCA2 to RAD51. Sequence similarity (30 % identity) between RAD51 and E. coli RecA had allowed to define and express a domain of RAD51. The BRC4-RAD51 complex was prepared, crystallized, and its structure was solved at high resolution. The crystal structure shows extensive specific interactions between BRC4 and RAD51, additionally it demonstrates structural similarity between RAD51 and RecA, supporting the idea of a shared mechanism. Two crucial insights emerge: firstly, the authors are able to map breast cancer associated mutations of BRCA2 (from the NIH Breast Cancer Information Core database) to specific BRC4 residues that appear to have critical roles for RAD51 binding. As a general rule: cancer associated mutations appear to disrupt interactions that seem to be critical for binding. And secondly, the mode of interaction between BRC4 and RAD51 allows to hypothesize about the function of the repaets. RecA forms helical nucleoprotein filaments as part of its function. Superposition of the RAD51 structure on the model of the RecA filament thus allows to model the interactions of RAD51 domains in a RAD51 filament. Comparison with the BRC4 complex structure shows that BRC4 binds RAD51 in a location that would be occupied by another RAD51 molecule, in a RAD51 helical filament. Furthermore, the conformation of BRC4 in this epitope mimics the conformation of the RAD51 epitope it apparently displaces, as well, the BRC consensus sequence motif of this epitope (GFXTASG) is similar to the highly conserved sequence of this epitope in RAD51 homologues (GFTTATE).

2003 - Phylogenetic analysis

Phylogenetic relationships among 64 placental mammals and two marsupials based on analysis of 9,779 bp from 15 nuclear and three mtDNA genes. (from: Murphy WJ, Eizirik E, Johnson WE, Zhang YP, Ryder OA, O'Brien SJ (2001) Molecular phylogenetics and the origins of placental mammals. Nature 409:614-618)

2003 - Phylogenetic analysis

You have studied the relationship between GlnRS and GluRS throughout your assignments (in 2003). An important contribution to this topic was made in September of 2003, with the discovery of a GluRS isozyme with intriguing specificity in H. pylori. It appears that GluRS-1 aminoacylates tRNAGlu while GluRS-2 specifically aminoacylates tRNAGln. Is this a missing link in the evolution of laterally transferred GlxRS ? Is it an alternative route to independent evolution of GlnRS activity ? Or is it just a refinement of the GluRS → GatABC pathway, perhaps for better metabolic regulation ? Here is some of the evidence:    

(After: Skouloubris S, DePouplana LR, DeReuse H, Hendrickson TL (2003) A noncognate aminoacyl-tRNA synthetase that may resolve a missing link in protein evolution. PNAS 100:11297-11302.) Phylogenetic tree of GluRS sequences in proteobacteria. Species with ORFs similar to helicobacter GluRS-1 resp. GluRS-2 are boxed; those few not in the box have been identified with the suffix "-1" resp. "-2". Bacteria with a GlnRS ORF are labelled with a black diamond. GlnRS sequences are more distantly related to any of these GluRS than all of them with each other.

Here are the 2004 questions to the same sketch:

2004 - Gene regulation

Here is an excerpt from a recent abstract using microarray technology to study pathogen gene regulation:  

Identification of iron-activated and -repressed Fur-dependent genes by transcriptome analysis of Neisseria meningitidis group B.

Grifantini R, Sebastian S, Frigimelica E, Draghi M, Bartolini E, Muzzi A, Rappuoli R, Grandi G, Genco CA. Proc Natl Acad Sci U S A (2003) 100:9542-9547

Iron is limiting in the human host, and bacterial pathogens respond to this environment by activating genes required for bacterial virulence. Transcriptional regulation in response to iron in Gram-negative bacteria is largely mediated by the ferric uptake regulator protein Fur, which in the presence of iron binds to a specific sequence in the promoter regions of genes under its control and acts as a repressor. Here we describe DNA microarray, computational and in vitro studies to define the Fur regulon in the human pathogen Neisseria meningitidis group B (strain MC58). After iron addition to an iron-depleted bacterial culture, 153 genes were up-regulated and 80 were down-regulated. [...] Forty-two promoter regions were amplified and 32 of these were shown to bind Fur by gel-shift analysis. Among these genes, many of which had never been described before to be Fur-regulated, 10 were up-regulated on iron addition, demonstrating that Fur can also act as a transcriptional activator. [...]

2004 - Genomes and Pathways

Far from being dull components of dusty textbook knowledge about basic cellular metabolism, tRNA synthetases appear in surprising variations in the microbial world. Consider the excerpt from the following abstract about the very problematic human pathogen Pseudomonas aeruginosa: 

Direct glutaminyl-tRNA biosynthesis and indirect asparaginyl-tRNA biosynthesis in Pseudomonas aeruginosa PAO1.

Akochy PM, Bernard D, Roy PH, Lapointe J. J Bacteriol. (2004) 186:767-776

The genomic sequence of Pseudomonas aeruginosa PAO1 was searched for the presence of open reading frames (ORFs) encoding enzymes potentially involved in the formation of Gln-tRNA and of Asn-tRNA. We found ORFs similar to known glutamyl-tRNA synthetases (GluRS), glutaminyl-tRNA synthetases (GlnRS), aspartyl-tRNA synthetases (AspRS), and trimeric tRNA-dependent amidotransferases (AdT) but none similar to known asparaginyl-tRNA synthetases (AsnRS).

[ The authors then describe biochemical experiments to conclude ... ]

These results show that P. aeruginosa PAO1 is the first organism known to synthesize Asn-tRNA via the indirect pathway and to synthesize Gln-tRNA via the direct pathway. The essential role of AdT in the formation of Asn-tRNA in P. aeruginosa and the absence of a similar activity in the cytoplasm of eukaryotic cells identifies AdT as a potential target for antibiotics to be designed against this human pathogen. Such novel antibiotics could be active against other multidrug-resistant gram-negative pathogens such as Burkholderia and Neisseria as well as all pathogenic gram-positive bacteria.

2004 - Protein Structure Domains

The recognition that proteins are frequently organized into domains and that domains appear to provide an efficient means of combinatorial generation of function, is one of the remarkable insights we have gained from structural studies and sequence analysis. Among the numerous different definitions for "protein domains" are the following:

A domain is:

• an independently folding fragment of protein sequence
• a separately inherited sequence fragment
• a compact set of amino acids in a structure
• a functional unit

You could structure this as follows:

2004 - Homology modeling and model analysis

We have studied protein structure and homology models in the assignments and discussed them at length in various lectures. The single most important factor affecting the quality of a homology model is the sequence alignment to the template and this can be a problem, since optimal sequence alignment and "true" structure alignment need not always coincide. However, there are also other factors to be considered, especially when you have more than one homologuos structure that could serve as a template.

Short answers please!

[...]
ATOM     66  OG  SER A   9      42.867  81.416  54.733  1.00 28.69           O  
[...]
ATOM   9214  O3*   A C 576      41.539  83.821  54.257  1.00 73.54           O  
[...]