JARID: The JARID group of proteins contains two subgroups: JARID1 and JARID2. In higher eukaryotes, the JARID1 subgroup contains JmjN, AT-rich interactive, C5HC2-zinc-finger and PHD-finger domains. The JARID2 subgroup does not contain PHD domains, and its Drosophila homologue lacks the C5HC2-zinc-finger domain. The mammalian JARID1 homologues can function as transcriptional co-activators or corepressors, indicating that their substrate specificity could be uniquely tailored to their distinct functions in modulating transcription. (1)

Reference
1. Klose RJ,Kallin EM,Zhang Y (2010)JmjC-domain-containing proteins and histone demethylation. Nat Rev Genet., 7:715-727. PMID: 16983801.

    JHDM2: The JHDM2 family of proteins have orthologues from flies to humans; they possess JmjC and modified zinc finger domains. The mammalian JHDM2 family is comprised of four human proteins: hairless (HR), JHDM2A, JHDM2B, and JHDM2C. HR was originally identified in mice, and its mutation results in universal congenital alopecia. Mutation in its human homologue also causes hereditary alopecia. HR is expressed in the skin and the brain, where it probably functions as a corepressor of the thyroid hormone receptor. (1)

Reference
1. Klose RJ,Kallin EM,Zhang Y (2007)JmjC-domain-containing proteins and histone demethylation. Nat Rev Genet., 7:715-727. PMID: 16983801.

    JHDM3_JMJD2: The JHDM3_JMJD2 group of proteins has orthologues from yeast to humans. In higher eukaryotes, proteins of this family contain JmjN, PHD and Tudor domains in addition to the JmjC domain. There are four JHDM3_JMJD2 genes (JHDM3A_JMJD2A, JMJD2B, JMJD2C and JMJD2D) in the human genome, each of which has orthologues in the mouse. JHDM3A_JMJD2A was originally identified as a transcriptional repressor associated with the NCoR corepressor complex, but has also been shown to physically interact with RB to repress E2F target genes. More recently, it was suggested that the tandem Tudor domain of JHDM3A_JMJD2A potentially contains a chromatin targeting module that directly binds methylated H3K4, H3K9 and H4K20. (1)

Reference
1. Klose RJ,Kallin EM,Zhang Y (2008)JmjC-domain-containing proteins and histone demethylation. Nat Rev Genet., 7:715-727. PMID: 16983801.

    JmjC_only: The seventh group that we discuss contains several JmjC domain- containing proteins that, apart from the JmjC domain, contain no other recognizable protein domains. This group forms its own branch that is based on homology within the JmjC domain, and includes all of the JmjC-domain proteins that are known to localize to the cytoplasm (FIH, PLA2G4B and HSPBAP1). We propose that these proteins, of which only the MINA53/NO66 group (see below) has orthologues in yeast, might have diverged in higher eukaryotes to carry out functions that are independent of histone demethylation. (1)

Reference
1. Klose RJ,Kallin EM,Zhang Y (2012)JmjC-domain-containing proteins and histone demethylation. Nat Rev Genet., 7:715-727. PMID: 16983801.

    PHF2_PHF8: The PHF2_PHF8 group members are found in worms, mice and humans, and contain a PHD domain in addition to a JmjC domain. The subcellular localization of these proteins remains unknown, although most of them contain predicted nuclear localization signals (NLSs), indicating a role in nuclear function. Northern blot analysis indicates that PHF2 is ubiquitously expressed, and in situ hybridization has shown that the majority of PHF2 gene expression is concentrated in the embryonic neural tube and root ganglia in mice. (1)

Reference
1. Klose RJ,Kallin EM,Zhang Y (2009)JmjC-domain-containing proteins and histone demethylation. Nat Rev Genet., 7:715-727. PMID: 16983801.

    UTX_UTY: The ubiquitously transcribed tetratricopeptide repeat (TPR) UTX_UTY group of proteins have orthologues from worms to humans, and contain a tetratricopeptide repeat in addition to the JmjC domain. This group also includes the JMJD3 proteins (which have been identified in humans and mice) that lack the TPR domain. The function of the UTX_UTY proteins is largely unknown, except for the observation that UTY contributes to male-specific antigens, which can lead to the sex-specific tissue-transplantation rejection response. The expression and function of the UTX/UTY/JMJD3 orthologues in lower eukaryotes remain uncharacterized. (1)

Reference
1. Klose RJ,Kallin EM,Zhang Y (2011)JmjC-domain-containing proteins and histone demethylation. Nat Rev Genet., 7:715-727. PMID: 16983801.