Biomaterial Database

Conformational comparison in the snake toxin family. 1996

R J Falkenstein, and C Peña, and M J Biscoglio, and D J Bonino

Institute of Biological Chemistry and Physicochemistry (UBA-CONICET), Faculty of Pharmacy and Biochemistry, University of Buenos Aires, Argentina.

A theoretical method was applied to consensus sequences of several members of the snake toxin family as a further approach to examining their conformational homology. Some secondary-structure predictions as well as hydropathy profiles were also examined. A comparison of long neurotoxins themselves reveals a high homology degree. However, their C-terminal fragments show poor homology and the N-terminal fragments appear as the region of maximum variability. Moreover, when the matrix includes the consensus sequence of the genus Laticauda (LNTX1), lacking the disulfide bridge 31-35, the method detects a lower conformational homology in a molecular region centered at position 31. Unlike long neurotoxins, the N-terminal segments of short neurotoxins show a high homology degree, but when comparing short with long neurotoxins, a poor correlation is found in this zone of the molecule. Cytotoxins studied exhibit an excellent conformational homology except when the consensus sequence of cytotoxin homologues CTXE is one of the proteins in the matrix. A comparison between cytotoxins and short neurotoxins reveals homology only in two segments belonging to a beta-sheet structure. A considerable degree of homology is found between the short neurotoxin group and calciseptin and fasciculin as well as between the long neurotoxin group and kappa-neurotoxins.

UI	MeSH Term	Description	Entries
D008969	Molecular Sequence Data	Descriptions of specific amino acid, carbohydrate, or nucleotide sequences which have appeared in the published literature and/or are deposited in and maintained by databanks such as GENBANK, European Molecular Biology Laboratory (EMBL), National Biomedical Research Foundation (NBRF), or other sequence repositories.	Sequence Data, Molecular,Molecular Sequencing Data,Data, Molecular Sequence,Data, Molecular Sequencing,Sequencing Data, Molecular
D009498	Neurotoxins	Toxic substances from microorganisms, plants or animals that interfere with the functions of the nervous system. Most venoms contain neurotoxic substances. Myotoxins are included in this concept.	Alpha-Neurotoxin,Excitatory Neurotoxin,Excitotoxins,Myotoxin,Myotoxins,Neurotoxin,Alpha-Neurotoxins,Excitatory Neurotoxins,Excitotoxin,Alpha Neurotoxin,Alpha Neurotoxins,Neurotoxin, Excitatory,Neurotoxins, Excitatory
D011487	Protein Conformation	The characteristic 3-dimensional shape of a protein, including the secondary, supersecondary (motifs), tertiary (domains) and quaternary structure of the peptide chain. PROTEIN STRUCTURE, QUATERNARY describes the conformation assumed by multimeric proteins (aggregates of more than one polypeptide chain).	Conformation, Protein,Conformations, Protein,Protein Conformations
D003603	Cytotoxins	Substances that are toxic to cells; they may be involved in immunity or may be contained in venoms. These are distinguished from CYTOSTATIC AGENTS in degree of effect. Some of them are used as CYTOTOXIC ANTIBIOTICS. The mechanism of action of many of these are as ALKYLATING AGENTS or MITOSIS MODULATORS.	Cytolysins,Cytotoxic Agent,Cytotoxic Agents,Cytotoxin,Agent, Cytotoxic
D000595	Amino Acid Sequence	The order of amino acids as they occur in a polypeptide chain. This is referred to as the primary structure of proteins. It is of fundamental importance in determining PROTEIN CONFORMATION.	Protein Structure, Primary,Amino Acid Sequences,Sequence, Amino Acid,Sequences, Amino Acid,Primary Protein Structure,Primary Protein Structures,Protein Structures, Primary,Structure, Primary Protein,Structures, Primary Protein
D012910	Snake Venoms	Solutions or mixtures of toxic and nontoxic substances elaborated by snake (Ophidia) salivary glands (Duvernoy's gland) for the purpose of killing prey or disabling predators and delivered by grooved or hollow fangs. They usually contain enzymes, toxins, and other factors.	Duvernoy's Gland Secretion,Duvernoy's Secretion,Snake Toxin,Snake Toxins,Snake Venom,Duvernoy Gland Secretion,Duvernoy Secretion,Duvernoys Gland Secretion,Duvernoys Secretion,Secretion, Duvernoy's,Secretion, Duvernoy's Gland,Toxin, Snake,Venom, Snake
D016384	Consensus Sequence	A theoretical representative nucleotide or amino acid sequence in which each nucleotide or amino acid is the one which occurs most frequently at that site in the different sequences which occur in nature. The phrase also refers to an actual sequence which approximates the theoretical consensus. A known CONSERVED SEQUENCE set is represented by a consensus sequence. Commonly observed supersecondary protein structures (AMINO ACID MOTIFS) are often formed by conserved sequences.	Consensus Sequences,Sequence, Consensus,Sequences, Consensus
D016415	Sequence Alignment	The arrangement of two or more amino acid or base sequences from an organism or organisms in such a way as to align areas of the sequences sharing common properties. The degree of relatedness or homology between the sequences is predicted computationally or statistically based on weights assigned to the elements aligned between the sequences. This in turn can serve as a potential indicator of the genetic relatedness between the organisms.	Sequence Homology Determination,Determination, Sequence Homology,Alignment, Sequence,Alignments, Sequence,Determinations, Sequence Homology,Sequence Alignments,Sequence Homology Determinations
D017433	Protein Structure, Secondary	The level of protein structure in which regular hydrogen-bond interactions within contiguous stretches of polypeptide chain give rise to ALPHA-HELICES; BETA-STRANDS (which align to form BETA-SHEETS), or other types of coils. This is the first folding level of protein conformation.	Secondary Protein Structure,Protein Structures, Secondary,Secondary Protein Structures,Structure, Secondary Protein,Structures, Secondary Protein