Why mybioinfo.info?
mybioinfo.info provides high quality free service to scientist. Hopefully, the service from mybioinfo.info will ease some of the daily struggle that some of the scientists face.
Examples:
Mybioinfo.info helps you cut out genomic sequence for a gene, including intron and exon at once.
Mybioinfo.info helps you cut out promotor region genomic sequence for a gene, which is up-stream 10k bp, according to the gene orientation on the chromosome.
Mybioinfo.info searches all the genes with similar symbol (name) at once.
Mybioinfo.info display Exon/Intron the way a scientist might really needed.
Much more for you to explore.
How to get multiFASTA file for my genes?
Getting multiFASTA file sounds easy, until you have more than a few genes.
Using mybioinfo.info website (free), you can search and add genes to you gene list. Remove genes from your gene list when desire. Download your multiFASTA by clicking "Download Multi" Button in the column header.
How to get Exon or Intron sequences for my gene?
Go to Exon/Intron search page, search you gene by symbol or RefSeq, the Exon/Intron will be listed right there.
You can click on the link for sequences or just enjoy the numbers.
How to get promoter region for my genes?
Using mybioinfo.info website (free), you can search your gene by symbol, refseq or word and have promoter region sequence link right there. One link is for 5' upstrean 10kb, another link is for 5' upstream 100kb.
Why sequence?
Knowledge of DNA sequences (The order of the nucleotide bases—adenine, guanine, cytosine, and thymine—in a molecule of DNA) and Protein sequences have become indispensable for basic biological research, other research branches utilizing DNA sequencing, and in numerous applied fields such as diagnostic, biotechnology or forensic biology.
P.S. Protein sequence, which represents the primary structure of a protein, is formally called peptide sequence. Peptide sequence or amino acid sequence is the order in which amino acid residues, connected by peptide bonds, lie in the chain in peptides and proteins. The sequence is generally reported from the N-terminal end containing free amino group to the C-terminal end containing free carboxyl group.
What is RefSeq?
The Reference Sequence (RefSeq) collection aims to provide a comprehensive, integrated, non-redundant, well-annotated set of sequences, including genomic DNA, transcripts, and proteins. RefSeq is a foundation for medical, functional, and diversity studies; they provide a stable reference for genome annotation, gene identification and characterization, mutation and polymorphism analysis (especially RefSeqGene records), expression studies, and comparative analyses.
