These proteins act as key regulators of clock gene expression through transcriptional repression of Bmal1. Through their regulation of clock-controlled genes, the Rev-Erb proteins affect several physiological processes throughout the body, including metabolic, endocrine, and immune pathways.[3][4][5]
In the human/mice nuclear receptor classification scheme, Rev-Erb is superfamily 1 family D (NR1D). The name “Rev-Erb” derived by truncation from “Rev-ERBA” (Rev-Erbα), which in turn was named because it was on the opposite strand of ERBA (THRA) oncogene. The paralogous Rev-Ernβ does not seem to have anything special on its reverse strand. Older sources may use “Rev-ERBA” as the family name.[6]
^Lazar MA, Jones KE, Chin WW (March 1990). "Isolation of a cDNA encoding human Rev-ErbA alpha: transcription from the noncoding DNA strand of a thyroid hormone receptor gene results in a related protein that does not bind thyroid hormone". DNA and Cell Biology. 9 (2): 77–83. doi:10.1089/dna.1990.9.77. PMID1971514.