Minou Bina

Strategy for qualitative and quantitative analysis in proteomics based on signature peptides

This paper describes a new analytical strategy for identifying proteins in concentration flux based on isotopic labeling peptides in tryptic digests. Primary amino groups in peptides from control and experimental samples were derivatized with acetate and trideuteroacetate, respectively. After mixing samples thus labeled from these two sources, the relative concentration of peptides was determined by isotope ratio analysis with MALDI and ESI mass spectrometry. More than a 100-fold difference in relative concentration could be detected. Simplification of complex tryptic digests prior to mass spectral analysis was achieved by selection of histidine-containing peptides with immobilized metal affinity sorbents or of glycopeptides by lectin columns. Because most of these peptides have sequences that are unique to a single protein, they are a signature of the protein from which they were derived; providing a facile route to protein analysis.

Proteomics of glycoproteins based on affinity selection of glycopeptides from tryptic digests

Identification of glycoproteins in complex mixtures derived from either human blood serum or a cancer cell line was achieved in a process involving the steps of (1) reduction and alkylation, (2) proteolysis of all proteins in the mixture with trypsin, (3) affinity chromatographic selection of the glycopeptides with an immobilized lectin, (4) direct transfer of the glycopeptide fraction to a reversed-phase liquid chromatography (RPLC) column and further fractionation by gradient elution, (5) matrix-assisted laser desorption ionization mass spectrometry of individual fractions collected from the RPLC column, and (6) peptide identification based on a database search. The types of glycoproteins analyzed were; (1) N-type glycoproteins of known primary structure, (2) N-type glycoproteins of unknown structure, and (3) O-type glycoproteins glycosylated with a single N-acetylglucosamine. Identification of peptides from complex mixtures was greatly facilitated by either C-terminal sequencing with a carboxypeptidase mixture or by comparing chromatographic behavior and mass to standards, as in the case of a known protein. In addition, deglycosylation of peptides with N glycosidase F was necessary to identify N-type glycoproteins of unknown structure. The strength of this approach is that it is fast and targets specific molecular species or classes of glycoproteins for identification. The weakness is that it does not discriminate between glycoforms.

A model chromatin assembly system: Factors affecting nucleosome spacing☆

Poly[d(A-T)].poly[d(A-T)], when reconstituted with chicken erythrocyte core histones and subsequently incubated with sufficient histone H5 in a solution containing polyglutamic acid, forms structures resembling chromatin. H5 induces nucleosome alignment in about two hours at physiological ionic strength and 37 degrees C. The nucleosome spacing and apparent linker heterogeneity in the assembled nucleoprotein are very similar to those in chicken erythrocyte chromatin. Also, condensed chromatin-like fibers on the polynucleotide can be visualized. The binding of one mole of H5 per mole of core octamer is necessary to generate the physiological nucleosome spacing, which remains constant with the addition of more H5. The nucleosome repeat length is not a function of the core histone to poly[d(A-T)] ratio for values lower than the physiological ratio. With increasing ratios, in excess of the physiological value, nucleosome spacing first becomes non-uniform, and then takes on the close packing limit of approximately 165 base-pairs. In addition to eliminating possible base sequence effects on nucleosome positioning, poly[d(A-T)] allows nucleosomes to slide more readily than does DNA, thereby facilitating alignment. Evidence is presented that polyglutamic acid facilitates the nucleosome spacing activity of histone H5, primarily by keeping the nucleoprotein soluble. This model system should be useful for understanding how different repeat lengths arise in chromatin.

The capsid of small papova viruses contains 72 pentameric capsomeres: direct evidence from cryo-electron-microscopy of simian virus 40.

The three-dimensional structure of the simian virus 40 capsid is remarkably similar to the structure of the polyoma empty capsid. This similarity is apparent despite striking differences in the methods used to determine the two structures: image analysis of electron micrographs of frozen-hydrated samples (SV40 virions) and an unconventional x-ray crystallographic analysis (polyoma empty capsids). Both methods have clearly resolved the 72 prominent capsomere units which comprise the T = 7d icosahedral capsid surface lattice. The 12 pentavalent and 60 hexavalent capsomeres consist of pentameric substructures. A pentameric morphology for hexavalent capsomeres clearly shows that the conserved bonding specificity expected from the quasi-equivalence theory is not present in either SV40 or polyoma capsids. Determination of the SV40 structure from cryo-electron microscopy supports the correctness of the polyoma structure solved crystallographically and establishes a strong complementarity of the two techniques. Similarity between the SV40 virion and the empty polyoma capsid indicates that the capsid is not detectably altered by the loss of the nucleohistone core. The unexpected pentameric substructure of the hexavalent capsomeres and the arrangement of the 72 pentamers in the SV40 and polyoma capsid lattices may be characteristic features of all members of the papova virus family, including the papilloma viruses such as human wart and rabbit papilloma.

The pH-dependent structure of calf thymus DNA studied by Raman spectroscopy

The pH-dependent structure of calf thymus DNA is analyzed using Raman spectroscopy. The Raman spectra in the acidic region demonstrate that denaturation occurs in several steps. The binding of H+ to adenine and cytosine residues is accompanied by a decrease in the percentage of DNA in the B-conformation and a concurrent increase in a conformation most probably related to the C-form. The denaturation of DNA is observed at pH 3.3 and parallels the protonation of guanine bases. The Raman spectra of calf thymus DNA in the basic region (above pH 10) show that guanine residues are deprotonated at lower pH value than are thymine residues. In addition, Raman spectra in the basic region detect conformational changes of the phosphate backbone different from those found in the acidic region.

Simian virus 40 protein VP1 is involved in spacing nucleosomes in minichromosomes

We have investigated the average nucleosome spacing in the chromatin from several simian virus 40 virion assembly mutants temperature-sensitive in the major capsid protein VP1. Viral assembly intermediates that accumulate in cells infected with mutants that block virion assembly at the propagation step (tsB) have an average nucleosome repeat length similar to that of wild-type SV40 chromatin, approximately 198(+/- 4) base-pairs. This repeat length is longer than that of the host (BSC-40) cellular chromatin, which has a value of 187(+/- 4) base-pairs. In contrast, SV40 chromatin from cells infected with virus containing a mutation that blocks virion assembly at the initiation step (tsC) has a significantly shorter average repeat length of 177(+/- 4) base-pairs. At the permissive temperature (33 degrees C), tsC chromatin has a nucleosome spacing periodicity essentially the same as that of wild-type SV40 chromatin. In addition to possessing a chromatin structure with nucleosomes that are, on the average, closer together, tsC chromatin contains a nuclease-hypersensitive or open region in nearly all molecules, but apparently the same number of nucleosomes. These findings suggest that nucleosomes are deposited initially on newly replicated SV40 chromatin in such a way as to leave the DNA region containing the origin of replication and transcription enhancers uncovered. Subsequent interaction with capsid proteins appears to increase the average nucleosome spacing and consequently to cover the open region for encapsidation.

Periodicity of dinucleotides in nucleosomes derived from simian virus 40 chromatin

It is thought that statistical analysis of dinucleotide periodicities can provide insight into the general features of nucleosome forming sequences. The chromatin of simian virus 40 (SV40) provides a model for a unique DNA sequence that is found in association with histones in vivo. I have therefore analyzed the periodicity of dinucleotides in a collection of cloned nucleosomal DNA fragments prepared from SV40 chromatin isolated under relatively mild conditions, in order to learn about the generality of results obtained from the statistical approach and to examine the SV40 data set in the context of models that have been proposed to explain the molecular basis of nucleosome formation. In one study, I assumed a symmetry in the distribution of dinucleotides with respect to the nucleosome dyad position and considered complementary dinucleotides to be equivalent, i.e. AA = TT and GG = CC. The results showed a periodic signal for GG/CC but not for AA/TT, purine-purine, and pyrimidine-pyrimidine dinucleotides. In a second study, the SV40 nucleosomal DNA fragments were aligned and examined with respect to the late strand of the viral genome to determine the distribution of dinucleotides in one direction. Fourier analysis revealed periodic signals for AA/TT (10.26 bp) and GG/CC (10.0 bp) and indicated that AA dominates the occurrences of AA/TT and GG dominates the occurrences of GG/CC. The results of both studies implied that there might be an asymmetry and a directionality in the distribution of certain dinucleotides in nucleosomes.

Neural network schemes for detecting rare events in human genomic DNA

MOTIVATION Many problems in molecular biology as well as other areas involve detection of rare events in unbalanced data. We develop two sample stratification schemes in conjunction with neural networks for rare event detection in such databases. Sample stratification is a technique for making each class in a sample have equal influence on decision making. The first scheme proposed stratifies a sample by adding up the weighted sum of the derivatives during the backward pass of training. The second scheme proposed uses a technique of modified bootstrap aggregating. After training neural networks with multiple sets of bootstrapped examples of the rare event classes and subsampled examples of common event classes, multiple voting for classification is performed. RESULTS These two schemes make rare event classes have a better chance of being included in the sample used for training neural networks and thus improve the classification accuracy for rare event detection. The experimental performance of the two schemes using two sets of human DNA sequences as well as another set of Gaussian data indicates that proposed schemes have the potential of significantly improving accuracy of neural networks to recognize rare events.

Temperature-mediated regulation and downstream inducible selection for controlling gene expression from the bacteriophage λ pL promoter

We have examined in detail the effects of various induction temperatures on the expression of a heterologous fusion gene controlled by the bacteriophage lambda PL promoter in a heat-inducible Escherichia coli expression system which utilizes the CIts857 repressor. Experiments performed over a temperature range spanning 29-42 degrees C indicate that, under our conditions, temperatures as low as 29 degrees C may be required to fully repress the CI857-controlled transcription from PL, and that the highest protein yields are obtained after induction at 36 degrees C for 6 h. We cloned the cat reporter gene downstream from a heterologous gene controlled by PL and found that cat expression at a low induction temperature permits the monitoring of productive transcription through the heterologous gene and thus aids in selecting transformants that are capable of producing the heterologous protein in E. coli.

Locations of nucleosomes on the regulatory region of simian virus 40 chromatin.

We have asked where the nucleosomes are located with respect to the replication origin and regulatory region of simian virus 40 DNA, what would be the possible functional consequences of the identified locations, and to what extent these locations correlate with the current views on mechanisms involved in establishing nucleosome-free regions in chromatin. To identify the precise location of nucleosomes, we have shot-gun cloned and sequenced nucleosomal DNA obtained from micrococcal nuclease digestion of wt776 chromatin prepared late in infection. Our results indicate that nucleosomes do not occupy unique positions over the replication origin or the elements involved in transcriptional control. However, it appears that the nucleosome distribution is not random, since several nucleosomes are represented by two or more independently generated clones. Two nearly identical cloned fragments map over the replication origin; five include 1.5 copies of the 72 base-pair enhancer sequences; and eight map to a region that spans a DNA bending locus and the major transcription initiation site of the late genes. The complex nucleosome distribution pattern observed in our direct analysis suggests that disparate nucleosome-free regions may be involved in controlling replication, and selective expression of the viral early or late genes.