Your search keyword '"Pallotta, D."' showing total 60 results

51. Expression of the three unlinked isocoding actin genes of Physarum polycephalum.

Author

Hamelin M, Adam L, Lemieux G, and Pallotta D

Subjects

Amino Acid Sequence, Chromosome Mapping, Cloning, Molecular, Genetic Linkage, Immunochemistry, Molecular Sequence Data, Transcription, Genetic, Actins genetics, Base Sequence, Gene Expression Regulation, Multigene Family, Physarum genetics, Sequence Homology, Nucleic Acid

Abstract

The actin gene family in Physarum polycephalum contains four unlinked loci: ardA, ardB, ardC, and ardD. The ardA locus is complex and probably contains two genes which we designated ardA2-7 and ardA2-17. cDNA clones corresponding to the ardB and ardC loci were isolated. Nucleic acid sequencing showed that these two cDNAs coded for the only abundant form of Physarum actin, which is 96% homologous to human gamma-cytoplasmic actin. The ardA2-17 gene also codes for this same actin protein (Nader et al., Gene 48, 133-144, 1986). The coding regions of ardB and ardC differ by 15 nucleotides. A comparison of the ardB and ardC sequences with ardA2-17 showed 73 and 77 nucleotide substitutions, respectively, in the coding regions. The noncoding regions of these three sequences were not homologous to each other or to the noncoding regions of actin genes from other organisms. Southern genomic hybridizations indicated that the ardA2-7 and ardD genes have weak sequence similarities to the three isocoding actin genes and thus form a different subclass of the family. Northern hybridizations showed that the ardB and ardC transcripts varied in abundance but were present in all the developmental stages. No ardA2-17 transcripts were seen. The relative abundance of the ardB and ardC transcripts was measured in amoebae and plasmodia by S1 nuclease protection and dot hybridization assays. A ratio of approximately 3:1 for ardC versus ardB was found for both stages. P. polycephalum is the first organism shown to contain three unlinked isocoding actin genes, of which at least two are expressed.

Published

1988

52. Gene families encode the major encystment-specific proteins of Physarum polycephalum plasmodia.

Author

Bernier F, Lemieux G, and Pallotta D

Subjects

Amino Acid Sequence, Base Sequence, Cloning, Molecular, DNA Restriction Enzymes, Molecular Sequence Data, Physarum physiology, RNA, Messenger genetics, Spores, Fungal physiology, Antigens, Fungal genetics, Coccidioidin genetics, Fungal Proteins genetics, Genes, Genes, Fungal, Physarum genetics

Abstract

The encystment of Physarum polycephalum plasmodia, also called spherulation, involves the synthesis of many specific mRNAs and proteins. Most of these molecules accumulate at the onset of the major morphological and physiological changes typical of this differentiation pathway and are not present during the other two transitions leading to dormancy in Physarum, namely sporulation and encystment of amoebae. The nucleotide sequences of apparently full-length cDNA copies of the four major encystment-specific mRNAs were determined. The four sequences included the entire coding regions and at least 26 nucleotides of the 5'-nontranscribed leaders. The encoded proteins were named spherulins. We found that spherulins 1a and 1b are 81% homologous and are thus members of a gene family. They both possess putative signal peptides and N-glycosylation sites, suggesting that they are cell-wall glycoproteins. Spherulin 2a and spherulin 3a are non-homologous proteins. The absence of signal peptides suggests that they are intracellular structural proteins. Low-stringency Southern hybridizations showed that each also belongs to a two-member gene family.

Published

1987

53. An immunological comparison of rye and calf histones.

Author

Roland B and Pallotta D

Subjects

Animals, Cattle, Complement Fixation Tests, Cross Reactions, Molecular Weight, Plants, Thymus Gland, Histones isolation & purification

Abstract

The rye and calf histones were fractionated by differential solubility and exclusion chromatography. Antibodies were produced against histones H1, H2A, H2B, and H3 of both species and the extent of cross-reaction was measured by microcomplement fixation. The results allowed the identification of rye histones H2A and H2B. The near structural identity of the H3 histones was confirmed by the small immunological distance which indicated an amino acid difference of less than 2% between rye and calf. The interspecific differences found for both H2A and H2B were greater, the amino acid difference estimated from the immunological distance being between 10 and 20%. H1 gave no immunological cross-reaction, indicating a large (greater than 40%) difference in the structure of this protein in the two species. The extent of variation that a histone fraction shows between plant and animal species is probably related to its role in chromatin organization.

Published

1978

54. Comparative study of rye and thymus histones: amino acid analysis and tryptic fingerprinting.

Author

Nadeau P, Pallotta D, and Lafontaine JG

Subjects

Amino Acids analysis, Animals, Cattle, Peptide Fragments analysis, Secale, Trypsin, Histones, Plants, Thymus Gland

Abstract

Amino acid composition and tryptic fingerprints of rye (Secal cereale) H1, H2B (PH1), and H2A(PHII) histones indicate the presence of major differences between these and the corresponding calf or rabbit fractions. In addition to variations for other amino acids, fraction H1 from rye contains twice as much arginine as the corresponding animal fraction; the plant H2B (PHI) and H2A (PHII) histones show lysine to arginine ratios greater than those of their animal counterparts. The tryptic maps of the same proteins appear to differ between plants and animals by the number and the general pattern of the peptides, as well as by the quantity and distribution of the arginine-containing peptides. Such results suggest the presence of differences in the primary structure of the calf and rye lysine-rich and moderately lysine-rich histones. Furthermore, the possibility is ruled out that each of these plant histones consists of an animal-like protein with an additional segment of 20--30 amino acid residues. On the other hand, the rye and calf arginine-rich fractions H3 and H4 show similar amino acid compositions and tryptic peptides maps.

Published

1977

55. Histones and RNA synthesis: selective binding of histones by a synthetic polyanion in calf thymus nuclei.

Author

Berlowitz L, Kitchin R, and Pallotta D

Subjects

Animals, Arginine analysis, Cattle, Cell Fractionation, Densitometry, Electrophoresis, Heterochromatin, Histidine analysis, Histones analysis, Lysine analysis, Protein Binding, Thymus Gland cytology, Cell Nucleus metabolism, Histones metabolism, Polystyrenes metabolism, Sulfonic Acids metabolism, Thymus Gland metabolism

Published

1972

56. The effect of ions on the structure and function of facultative heterochromatin in the mealy bug.

Author

Pallotta D

Subjects

Animals, Hypotonic Solutions, Isotonic Solutions, Male, RNA biosynthesis, Testis cytology, Tritium, Uridine metabolism, Chromosomes, Heterochromatin, Hydrogen-Ion Concentration, Insecta

Published

1972

57. Heterochromatin and genetic activity in mealy bugs. I. Compensation for inactive chromatin by increase in cell number.

Author

Berlowitz L, Loewus MW, and Pallotta D

Subjects

Animals, Brain cytology, Diploidy, Female, Ganglia cytology, Haploidy, Heterochromatin, Insecta, Male, Polyploidy, Chromosomes, DNA analysis

Published

1968

58. Histones of two insect species.

Author

Pallotta D and Berlowitz L

Subjects

Acrylates, Animals, Cattle, Chromatography, Ion Exchange, Densitometry, Electrophoresis, Disc, Gels, Histones isolation & purification, Intestines analysis, Methods, Muscles analysis, Species Specificity, Thymus Gland analysis, Histones analysis, Insecta analysis

Published

1970

59. Analysis of basic proteins during spermatogenesis in the cricket, Acheta domestica.

Author

Tessier A and Pallotta D

Subjects

Animals, Cattle, Cell Nucleus analysis, Chromatin analysis, Electrophoresis, Polyacrylamide Gel, Grasshoppers anatomy & histology, Histones analysis, Intestines analysis, Larva anatomy & histology, Male, Molecular Weight, Protamines analysis, Proteins isolation & purification, Salmon analysis, Spectrophotometry, Spermatozoa cytology, Testis cytology, Thymus Gland analysis, Grasshoppers analysis, Proteins analysis, Spermatozoa analysis

Published

1973

60. Isolated histone fractions and the alkaline fast green reaction.

Author

Berlowitz L, Pallotta D, and Pawlowski P

Subjects

Animals, Arginine analysis, Cattle, Electrophoresis, Histocytochemistry, Insecta analysis, Lysine analysis, Membranes, Artificial, Thymus Gland, Coloring Agents, Histones isolation & purification, Staining and Labeling

Published

1970