Significance of Amino acid sequence
Amino acid sequence refers to the specific order of amino acids in a protein, which is critical for determining the protein's structure and function. The text discusses how variations in amino acid sequences can be used to analyze the CVR of the ASFV and highlight structural differences among virus isolates. It also mentions modifications in sequences that affect protein coding and their implications for understanding viral evolution and potential medical applications, emphasizing the importance of these sequences in both research and diagnostics.
Synonyms: Protein sequence, Peptide chain, Amino acid chain, Polypeptide chain, Protein structure
The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.
The concept of Amino acid sequence in scientific sources
The amino acid sequence is crucial for understanding proteins' structure and function, illustrating genetic comparisons across strains, serving as biomarkers, and revealing evolutionary relationships through phylogenetic analysis and homology studies.
From: Onderstepoort Journal of Veterinary Research
(1) These are the building blocks of proteins, and their comparison at the cleavage site of the fusion protein gene can reveal differences between APMV-1 strains, helping to determine their characteristics.[1] (2) The deduced sequences from the gB gene were compared between strains. Comparison of these sequences has shown that the S3 strain had more amino acid substitution changes than the Malatya sample.[2] (3) The text refers to the sequence of amino acids that make up the virus's proteins, and is important in understanding the virus's structure and function.[3] (4) Amino acid sequences are the specific order of amino acids within a protein, and the study detected differences in amino acid sequences around the cleavage site of the fusion protein, which allowed the separation of the isolates into six types.[4] (5) These are the sequences of amino acids that make up the proteins of AHSV-4, which were used to confirm the in-frame display of peptides with the vector-encoded pVIII.[5]
From: The Malaysian Journal of Medical Sciences
(1) All CDTs have similar actions; however, these differ in bacterial species.[6] (2) These are sequences that remain unchanged during codon optimization, which increases the translational efficiency of target genes, as described in the provided text.[7] (3) The modification of the NS7 mutant resulted in a coding change from GDD to GAA motif residues at the amino acid sequence of RdRp's active site.[8] (4) The sequences deduced from the phage DNA were compared to dengue virus proteins to identify similarities and potential epitopes.[9]
From: International Journal of Pharmacology
(1) It is the order of amino acids in a protein or peptide chain, determining its structure, function, and properties.[10] (2) The building blocks of proteins, whose arrangement is analyzed using bioinformatics tools to understand protein structure and function.[11] (3) CYP3A4 and CYP3A5 share a considerable similarity, approximately 84%, in their amino acid sequences.[12] (4) Amino acid sequence refers to the order of amino acids in a protein, and certain camel milk proteins are noted for being rich in half cysteine, similar to insulin family peptides.[13]
From: Asian Journal of Pharmaceutics
(1) Amino acid sequences selections of genes were obtained by Expasy tools.[14] (2) This of the peptide was entered as input sequence and the codon table usage table was selected.[15] (3) The analysis involved 50 of these sequences, and all positions containing gaps and missing data were eliminated.[16] (4) Cora 1 showed amino acid sequence identities with seed storage proteins, Sesamum indicum.[17]
From: International Journal of Environmental Research and Public Health (MDPI)
(1) Amino acid sequences of degrading enzyme genes were translated by the nucleotide sequences using the Sixpack program of EMBOSS, and the mlr genes were blasted by BLASTx program on the NCBI.[18] (2) The sequence of amino acids that make up a protein, showing a closer relationship to certain prokaryotic genes for CaPCS 2.[19]