Introns (the stuff between the exons), and UTR (Untranslated region, the stuff before the start codon, and after the stop codon).
introns
A sequence of three nucleotides is a codon which codes for an amino acid that will be placed into a protein.
DNA is store in nucleus to synthesize protein in cytoplasm through translation. DNA encode the information in form of triplet codons to synthesize proteins.
its random really, some genes are recessive, and some are dominant if a gene is dominant than it will be expressed if it is present the only way for a recessive gene to be expressed is if there are two alleles for that traitIt's not random at all. There can be many reasons. One classic reason is given here. First, know that most genes encode proteins. A dominant gene (really, an allele) may encode for a functional protein while a recessive gene may encode for a non-functional proteindominant genes contain genes that are strong and recessive genes contain genes that are weak.
Genes are made of DNA (or RNA - not in humans). They are sequences that encode for a functional product (usually a protein). Chromosomes contain genes.
In the DNA world, ENCODE stands for the Encyclopedia of DNA Elements. It is a public research group started in 2003 by the United States National Human Genome Research Institute.
The TTR gene produces the protein transthyretine. Transthyretine transports vitamin A and a hormone called throzine throughout the body. The protein is produced in an area of the brain called the choroid plexus.
melanin
proteomics
A sequence of three nucleotides is a codon which codes for an amino acid that will be placed into a protein.
Cistrons encode only a single protein. Genes code for both proteins and functional RNA.
Signals
antonym of encode is decode
ENCODE was created in 2010.
During protein synthesis, three continuous bases on a messenger RNA (mRNA) molecule, known as a codon, encode different amino acids. Codons on the mRNA are translated into the amino acid sequence of a protein by the ribosome.
No. Nucleic acids encode proteins.
The past tense of "encode" is "encoded."
Genes encode the instructions for building proteins, which are the primary functional molecules in cells. These proteins determine the structure and function of cells, tissues, and organs in an organism. Additionally, genes also regulate gene expression, cell processes, and overall development.