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A structural gene is a gene that codes for any RNA or protein product other than a regulatory factor (i.e. regulatory protein).
Structural genes code for the synthesis of specific polypeptides. Operator genes contain the code necessary to begin the process of transcribing the DNA message of one or more structural genes into mRNA.
Structural genes are the genes that code for proteins and RNAs except regulatory factors. The products include structural proteins and enzymes. Structural genes also encode for non-coding RNAs such as the tRNAs and rRNAs.
In this Review, Oudelaar and Higgs discuss the relationship between genome structure and gene regulation, with a focus on whether genome organization has an instructive role or largely reflects...
With access to sequences of entire human genomes plus those of various model organisms and many important microbial pathogens, structural biology is on the verge of a dramatic transformation.
Bacteria have three types of genes: structural, operator, and regulator. Structural genes code for the synthesis of specific polypeptides. Operator genes contain the code necessary to begin the process of transcribing the DNA message of one or more structural genes into mRNA.
Although individual genomic structural variants (SVs) are known to influence gene expression and trait variation, the extent and scale of SV impact across a species remain unknown. In the present ...
Structural genes are segments of DNA that encode the information necessary to produce proteins. These genes are essential for the synthesis of enzymes and other proteins that perform critical functions within a cell.
Structural genes encode proteins whose primary function is to form part of a physical structure within a cell.
Structural genes encode for structural proteins that may be important in disc degeneration. Examples of such genes are aggrecan core protein or collagen type II genes.