Human Disease Model Report: Meier-Gorlin syndrome 2

General Information

Name

Meier-Gorlin syndrome 2

FlyBase ID

FBhh0001205

Disease Ontology Term

Meier-Gorlin syndrome 2

Parent Disease

Meier-Gorlin syndrome

OMIM

MEIER-GORLIN SYNDROME 2; MGORS2

Overview

This report describes Meier-Gorlin syndrome 2, which shows autosomal recessive inheritance. The human gene implicated in this disease is ORC4, an origin replication complex member. There is a single high-ranking ortholog of ORC4 in Drosophila, Orc4, a member of the origin replication complex (FBgg0000510). Several alleles have been generated for Orc4, including RNAi targeting constructs, overexpression constructs, null mutants, hypomorphs, and alleles generated by insertional mutagenesis.

The human gene ORC4 has not been introduced into flies.

While Orc4 null mutations are lethal, the Orc4p.Tyr174Cys mutants (made to correspond to a known MGS-associated mutation in humans) are hypomorphs with tissue-specific defects, including several bristle defects. Orc4p.Tyr174Cys flies are female sterile, with egg chambers that have too few nurse cells, and follicle cells that fail to amplify chorion genes.

[updated Mar. 2020 by FlyBase; FBrf0222196]

Disease Summary Information

Parent Disease Summary: Meier-Gorlin syndrome

Symptoms and phenotype

The Meier-Gorlin syndrome is a rare disorder characterized by severe intrauterine and postnatal growth retardation, microcephaly, bilateral microtia, and aplasia or hypoplasia of the patellae (summary by Shalev and Hall, 2003; pubmed:14564153). While almost all cases have primordial dwarfism with substantial prenatal and postnatal growth retardation, not all cases have microcephaly, and microtia and absent/hypoplastic patella are absent in some. Despite the presence of microcephaly, intellect is usually normal (Bicknell et al., 2011; pubmed:21358632). [from MIM:224690; 2018.09.26]

(OMIM, 2013-)

Specific Disease Summary: Meier-Gorlin syndrome 2

OMIM report

[MEIER-GORLIN SYNDROME 2; MGORS2](https://omim.org/entry/613800)

Human gene(s) implicated

[ORIGIN RECOGNITION COMPLEX, SUBUNIT 4; ORC4](https://omim.org/entry/603056)

Symptoms and phenotype

Individuals with MGS present with several tissue-specific developmental defects, including primordial dwarfism, small or missing patella, and small ears. A significant number of patients also present with microcephaly, although typically have normal cognitive function. (From McDaniel et al. 2020 and references therein, FBrf0244772.)

(FlyBase Curators, 2013-)

The Meier-Gorlin syndrome is a rare disorder characterized by severe intrauterine and postnatal growth retardation, microcephaly, bilateral microtia, and aplasia or hypoplasia of the patellae (summary by Shalev and Hall 2003, pubmed:14564153). While almost all cases have primordial dwarfism with substantial prenatal and postnatal growth retardation, not all cases have microcephaly, and microtia and absent/hypoplastic patella are absent in some. Despite the presence of microcephaly, intellect is usually normal (Bicknell et al. 2011, pubmed:21358632). [from MIM:224690, 2020.03.06]

(OMIM, 2013-)

Genetics

Genes encoding members of the origin recognition complex (ORC) and additional proteins essential for DNA replication (CDC6, CDT1, GMNN, CDC45, MCM5, and DONSON) are mutated in individuals diagnosed with MGS. (From McDaniel et al. 2020, FBrf0244772.)

(FlyBase Curators, 2013-)

Bicknell et al. 2011 (pubmed:21358632) analyzed the ORC4 gene in patients with an established diagnosis of Meier-Gorlin syndrome and identified homozygosity for a missense mutation (Y174C; 603056.0001) in the monozygotic twin sisters previously reported by Bongers et al. 2001 (pubmed:11477602). Compound heterozygosity for Y174C and a frameshift mutation was also identified in an unrelated 23-year-old American woman with Meier-Gorlin syndrome. In 2 patients with Meier-Gorlin syndrome mapping to chromosome 2, Guernsey et al. 2011 (pubmed:21358631) independently identified homozygosity for the Y174C mutation in the ORC4 gene, and in 2 more MGS patients, they identified compound heterozygosity for the Y174C mutation and another mutation in the ORC4 gene. [from MIM:613800, 2020.03.06]

(OMIM, 2013-)

Cellular phenotype and pathology

Molecular information

In G1 phase, origins are selected by the binding of the origin recognition complex (ORC) comprised of six subunits (Orc1, Orc2, Orc3, Orc4, Orc5, and Orc6). ORC recruits Cdc6 and together this complex recruits the Cdt1 chaperone bound to the MCM hexamer, the core component of the replicative helicase. In an ATP-dependent process, an MCM complex, comprised of two head-to-head hexamers, assembles onto the double-stranded origin DNA, "licensing" the origin. (From McDaniel et al. 2020 and references therein, FBrf0244772.)

(FlyBase Curators, 2013-)

External links

Gene2Function (human gene): ORC4
Gene2Function (human gene): ORC4
Gene Cards: ORC4
MedlinePlus (condition): Meier-Gorlin syndrome
MedlinePlus (gene): ORC4
KEGG Disease Pathways: Cell cycle
MARRVEL (human gene): ORC4
NCBI MedGen: Meier-Gorlin syndrome 2 (MGORS2)
NCBI (Entrez) gene: ORC4; origin recognition complex subunit 4

Disease synonyms

MGS

MGS2

Related Diseases

Related human health report(s)

Related Specific Diseases

OMIM phenotypic series

Meier-Gorlin syndrome

Disease

Associated Human gene(s)

Drosophila model

Human transgene in Drosophila

[MGORS1](https://omim.org/entry/224690)

[ORC1](https://omim.org/entry/601902)

[MGORS2](https://omim.org/entry/613800)

[ORC4](https://omim.org/entry/603056)

Meier-Gorlin syndrome 2

[MGORS3](https://omim.org/entry/613803)

[ORC6](https://omim.org/entry/607213)

Meier-Gorlin syndrome 3

[MGORS4](https://omim.org/entry/613804)

[CDT1](https://omim.org/entry/605525)

[MGORS5](https://omim.org/entry/613805)

[CDC6](https://omim.org/entry/602627)

[MGORS6](https://omim.org/entry/616835)

[GMNN](https://omim.org/entry/602842)

[MGORS7](https://omim.org/entry/617063)

[CDC45](https://omim.org/entry/603465)

[MGORS8](https://omim.org/entry/617564)

[MCM5](https://omim.org/entry/602696)

Ortholog Information

Human gene(s) in FlyBase

Human gene (HGNC)

Symbol / Name

ORC4; origin recognition complex subunit 4

D. melanogaster ortholog (based on DIOPT)

Dmel\Orc4

(DIOPT, 2013-)

Comments on ortholog(s)

One to one: one human gene to one Drosophila gene.

Other mammalian ortholog(s) used

D. melanogaster Gene Information (1)

Dmel\Orc4

Gene Snapshot

Origin recognition complex subunit 4 (Orc4) encodes is a subunit of the hetero-hexameric origin recognition complex (ORC). The ORC binds to origins of DNA replication and scaffolds assembly of a pre-replicative complex, which is required for the initiation of DNA replication. At other loci, the ORC is required for heterochromatin formation. [Date last reviewed: 2019-03-14]

Molecular function (GO)

Cellular component (GO)

Gene Groups / Pathways

ORC
ATPASE-U

Comments on ortholog(s)

Single, high-scoring ortholog of human ORC4.

Orthologs and Alignments from DRSC

DIOPT - DRSC Integrative Ortholog Prediction Tool - Click the link below to search for orthologs in Humans

H. sapiens (Human)

Other Genes Used: Viral, Bacterial, Synthetic (0)

Summary of Physical Interactions (10 groups)

Orc4

protein-protein

Interacting group

Assay

References

Orc4 - Cdc6

pull down, molecular weight estimation by staining, electron microscopy

(Schmidt and Bleichert, 2020, Bleichert et al., 2018)

Orc4 - e(y)2

two hybrid, anti bait coimmunoprecipitation, western blot, peptide massfingerprinting

(Maksimenko et al., 2018, Kopytova et al., 2016)

Orc4 - Orc1

electron microscopy, x-ray crystallography, pull down, autoradiography, molecular weight estimation by staining, cross-linking study, Identification by mass spectrometry

(Schmidt and Bleichert, 2020, Bleichert et al., 2018, Bleichert et al., 2015, Bleichert et al., 2013)

Orc4 - Orc2

electron microscopy, cross-linking study, Identification by mass spectrometry, pull down, molecular weight estimation by staining, autoradiography, anti bait coimmunoprecipitation, western blot, x-ray crystallography

(Schmidt and Bleichert, 2020, Bleichert et al., 2018, Kopytova et al., 2016, Bleichert et al., 2015, Bleichert et al., 2013)

Orc4 - Orc3

pull down, autoradiography, molecular weight estimation by staining, x-ray crystallography, anti bait coimmunoprecipitation, western blot, electron microscopy

(Schmidt and Bleichert, 2020, Bleichert et al., 2018, Kopytova et al., 2016, Bleichert et al., 2015, Bleichert et al., 2013)

Orc4 - Orc5

x-ray crystallography, anti bait coimmunoprecipitation, western blot, cross-linking study, Identification by mass spectrometry, electron microscopy, pull down, molecular weight estimation by staining, autoradiography

(Schmidt and Bleichert, 2020, Bleichert et al., 2018, Kopytova et al., 2016, Bleichert et al., 2015, Bleichert et al., 2013)

Orc4 - Orc6

pull down, molecular weight estimation by staining, fluorescence polarization spectroscopy, predetermined participant, electron microscopy, cross-linking study, Identification by mass spectrometry, autoradiography, x-ray crystallography, anti bait coimmunoprecipitation, western blot

(Schmidt and Bleichert, 2020, Bleichert et al., 2018, Kopytova et al., 2016, Bleichert et al., 2015, Bleichert et al., 2013)

Orc4 - PCID2

anti tag coimmunoprecipitation, anti tag western blot

(Kopytova et al., 2016)

Orc4 - Su(var)205

pull down, autoradiography

(Pak et al., 1997)

Orc4 - xmas

anti tag coimmunoprecipitation, anti tag western blot, anti bait coimmunoprecipitation, western blot

(Kopytova et al., 2016)

Alleles Reported to Model Human Disease (Disease Ontology) (1 alleles)

Orc4