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  • The following term was not found in MedGen: @JYP24.
1.

3M syndrome 1

Three M syndrome is characterized by severe pre- and postnatal growth deficiency (final height 5-6 SD below the mean; i.e., 120-130 cm), characteristic facies, and normal intelligence. Additional features of three M syndrome include short broad neck, prominent trapezii, deformed sternum, short thorax, square shoulders, winged scapulae, hyperlordosis, short fifth fingers, prominent heels, and loose joints. Males with three M syndrome have hypogonadism and occasionally hypospadias. [from GeneReviews]

MedGen UID:
395592
Concept ID:
C2678312
Disease or Syndrome
2.

Epilepsy, idiopathic generalized, susceptibility to, 16

MedGen UID:
1684869
Concept ID:
C5231421
Finding
3.

Immunoglobulin M, level of

MedGen UID:
327005
Concept ID:
C1839966
Finding
4.

Susceptibility to HIV infection

The pathogenesis of HIV infection and the progression from infection to AIDS vary significantly between exposed individuals. Infection occurs after the virus, which has macrophage (M)- and T lymphocyte (T)-tropic strains and more than 12 subtypes, survives an array of nonspecific, nongenetic environmental and host factors. [from OMIM]

MedGen UID:
332156
Concept ID:
C1836230
Finding
5.

3M syndrome 2

Three M syndrome is characterized by severe pre- and postnatal growth deficiency (final height 5-6 SD below the mean; i.e., 120-130 cm), characteristic facies, and normal intelligence. Additional features of three M syndrome include short broad neck, prominent trapezii, deformed sternum, short thorax, square shoulders, winged scapulae, hyperlordosis, short fifth fingers, prominent heels, and loose joints. Males with three M syndrome have hypogonadism and occasionally hypospadias. [from GeneReviews]

MedGen UID:
414168
Concept ID:
C2752041
Disease or Syndrome
6.

3M syndrome 3

Three M syndrome is characterized by severe pre- and postnatal growth deficiency (final height 5-6 SD below the mean; i.e., 120-130 cm), characteristic facies, and normal intelligence. Additional features of three M syndrome include short broad neck, prominent trapezii, deformed sternum, short thorax, square shoulders, winged scapulae, hyperlordosis, short fifth fingers, prominent heels, and loose joints. Males with three M syndrome have hypogonadism and occasionally hypospadias. [from GeneReviews]

MedGen UID:
481776
Concept ID:
C3280146
Disease or Syndrome
7.

3-M syndrome

Three M syndrome is characterized by severe pre- and postnatal growth deficiency (final height 5-6 SD below the mean; i.e., 120-130 cm), characteristic facies, and normal intelligence. Additional features of three M syndrome include short broad neck, prominent trapezii, deformed sternum, short thorax, square shoulders, winged scapulae, hyperlordosis, short fifth fingers, prominent heels, and loose joints. Males with three M syndrome have hypogonadism and occasionally hypospadias. [from GeneReviews]

MedGen UID:
336440
Concept ID:
C1848862
Disease or Syndrome
8.

Mycobacterium tuberculosis, susceptibility to

Mycobacterium tuberculosis latently infects approximately one-third of humanity and is comparable only to human immunodeficiency virus (HIV; see 609423) as a leading infectious cause of mortality worldwide. Obstacles for controlling TB infection include lengthy treatment regimens of 6 to 9 months, drug resistance, lack of a highly efficacious vaccine, and incomplete understanding of the factors that control infectivity and disease progression. Although only 10% of individuals infected with M. tuberculosis develop active disease, the immune responses associated with TB susceptibility or resistance are not known. In addition, it is not known why some individuals have disseminated TB that spreads to the meninges and central nervous system, while most people have localized disease in the lungs. A number of studies suggest that host genetic factors influence susceptibility and resistance to TB (review by Berrington and Hawn, 2007). [from OMIM]

MedGen UID:
320428
Concept ID:
C1834752
Finding
9.

Fanconi anemia, complementation group M

Fanconi anemia (FA) is characterized by physical abnormalities, bone marrow failure, and increased risk for malignancy. Physical abnormalities, present in approximately 75% of affected individuals, include one or more of the following: short stature, abnormal skin pigmentation, skeletal malformations of the upper and/or lower limbs, microcephaly, and ophthalmic and genitourinary tract anomalies. Progressive bone marrow failure with pancytopenia typically presents in the first decade, often initially with thrombocytopenia or leukopenia. The incidence of acute myeloid leukemia is 13% by age 50 years. Solid tumors – particularly of the head and neck, skin, and genitourinary tract – are more common in individuals with FA. [from GeneReviews]

MedGen UID:
854019
Concept ID:
C3469529
Disease or Syndrome
10.

Autosomal recessive osteopetrosis 6

Other features of autosomal recessive osteopetrosis can include slow growth and short stature, dental abnormalities, and an enlarged liver and spleen (hepatosplenomegaly). Depending on the genetic changes involved, people with severe osteopetrosis can also have brain abnormalities, intellectual disability, or recurrent seizures (epilepsy).

Autosomal dominant osteopetrosis (ADO), which is also called Albers-Schönberg disease, is typically the mildest type of the disorder. Some affected individuals have no symptoms. In affected people with no symptoms, the unusually dense bones may be discovered by accident when an x-ray is done for another reason. 

A few individuals have been diagnosed with intermediate autosomal osteopetrosis (IAO), a form of the disorder that can have either an autosomal dominant or an autosomal recessive pattern of inheritance. The signs and symptoms of this condition become noticeable in childhood and include an increased risk of bone fracture and anemia. People with this form of the disorder typically do not have life-threatening bone marrow abnormalities. However, some affected individuals have had abnormal calcium deposits (calcifications) in the brain, intellectual disability, and a form of kidney disease called renal tubular acidosis.

Autosomal recessive osteopetrosis (ARO) is a more severe form of the disorder that becomes apparent in early infancy. Affected individuals have a high risk of bone fracture resulting from seemingly minor bumps and falls. Their abnormally dense skull bones pinch nerves in the head and face (cranial nerves), often resulting in vision loss, hearing loss, and paralysis of facial muscles. Dense bones can also impair the function of bone marrow, preventing it from producing new blood cells and immune system cells. As a result, people with severe osteopetrosis are at risk of abnormal bleeding, a shortage of red blood cells (anemia), and recurrent infections. In the most severe cases, these bone marrow abnormalities can be life-threatening in infancy or early childhood.

In individuals with ADO who develop signs and symptoms, the major features of the condition include multiple bone fractures after minor injury, abnormal side-to-side curvature of the spine (scoliosis) or other spinal abnormalities, arthritis in the hips, and a bone infection called osteomyelitis. These problems usually become apparent in late childhood or adolescence.

Osteopetrosis is a bone disease that makes bone tissue abnormally compact and dense and also prone to breakage (fracture). Researchers have described several major types of osteopetrosis, which are usually distinguished by their pattern of inheritance: autosomal dominant or autosomal recessive. The different types of the disorder can also be distinguished by the severity of their signs and symptoms. [from MedlinePlus Genetics]

MedGen UID:
409754
Concept ID:
C1969093
Disease or Syndrome
11.

Decreased circulating total IgM

An abnormally decreased level of immunoglobulin M (IgM) in blood. [from HPO]

MedGen UID:
116095
Concept ID:
C0239989
Finding
12.

Generalized epilepsy-paroxysmal dyskinesia syndrome

Generalized epilepsy-paroxysmal dyskinesia syndrome is characterised by the association of paroxysmal dyskinesia and generalised epilepsy (usually absence or generalised tonic-clonic seizures) in the same individual or family. The prevalence is unknown. Analysis in one of the reported families led to the identification of a causative mutation in the <i>KCNMA1</i> gene (chromosome 10q22), encoding the alpha subunit of the BK channel. Transmission is autosomal dominant. [from ORDO]

MedGen UID:
1801137
Concept ID:
C5574945
Disease or Syndrome
13.

Glaucoma 1, open angle, M

MedGen UID:
400584
Concept ID:
C1864653
Disease or Syndrome
14.

Macroglobulinemia, Waldenstrom, 1

Waldenstrom macroglobulinemia (WM) is a malignant B-cell neoplasm characterized by lymphoplasmacytic infiltration of the bone marrow and hypersecretion of monoclonal immunoglobulin M (IgM) protein (review by Vijay and Gertz, 2007). The importance of genetic factors is suggested by the observation of familial clustering of WM (McMaster, 2003). Whereas WM is rare, an asymptomatic elevation of monoclonal IgM protein, termed 'IgM monoclonal gammopathy of undetermined significance' (IgM MGUS) is more common. Patients with IgM MGUS can progress to develop WM, at the rate of 1.5% to 2% per year (Kyle et al., 2003). Genetic Heterogeneity of Waldenstrom Macroglobulinemia A locus for susceptibility to Waldenstrom macroglobulinemia (WM2; 610430) has been mapped to chromosome 4q. [from OMIM]

MedGen UID:
320546
Concept ID:
C1835192
Disease or Syndrome
15.

BLOOD GROUP, MN

MN antigens reside on GYPA, one of the most abundant red-cell glycoproteins. The M and N antigens are 2 autosomal codominant antigens encoded by the first 5 amino acids of GYPA and include 3 O-linked glycans as part of the epitope. M and N differ at amino acids 1 and 5, where M is ser-ser-thr-thr-gly, and N is leu-ser-thr-thr-glu. M is the ancestral GYPA allele and is common in all human populations and Old World apes. GYPA, glycophorin B (GYPB; 617923), and glycophorin E (GYPE; 138590) are closely linked on chromosome 4q31. The N terminus of GYPB is essentially identical to that of GYPA except that it always expresses the N antigen, denoted 'N' or N-prime. Antigens of the Ss blood group (111740) reside on GYPB, and recombination and gene conversion between GYPA, GYPB, and GYPE lead to hybrid glycophorin molecules and generation of low-incidence antigens. Thus, the MN and Ss blood groups are together referred to as the MNSs or MNS blood group system. The U antigen refers to a short extracellular sequence in GYPB located near the membrane. Recombination results in 3 glycophorin-null phenotypes: En(a-) cells lack GYPA due to recombination between GYPA and GYPB; GYPB-negative (S-s-U-) cells lack GYPB due to recombination in GYPB; and M(k) cells (M-N-S-s-U-) lack both GYPA and GYPB due to recombination between GYPA and GYPE. Individuals with glycophorin-null phenotypes have decreased sialic acid content and increased resistance to malarial infection (see 611162). GYPA and GYPB are not essential for red-cell development or survival, and GYPA- and GYPB-null phenotypes are not associated with anemia or altered red-cell function (review by Cooling, 2015). [from OMIM]

MedGen UID:
10071
Concept ID:
C0026327
Body System
16.

Leprosy, susceptibility to, 1

Leprosy is a disease of peripheral sensory nerves that results from infection with Mycobacterium leprae, which was first detected in Bergen, Norway, in 1873 by Dr. Armauer Hansen. It can be effectively treated with long-term multidrug therapy. In 2006, more than 250,000 new cases of leprosy were reported to the World Health Organization. Many infected individuals have self-healing indeterminate lesions. Others with initially indeterminate lesions proceed to develop leprosy that can be classified along a clinical and immunologic spectrum from paucibacillary or tuberculoid leprosy to multibacillary or lepromatous leprosy. Most patients fall somewhere between these 2 polar forms of the disease and are classified, using pathology-based criteria developed by Ridley and Jopling (1966), as borderline tuberculoid, midborderline, and borderline lepromatous. The paucibacillary form is associated with strong M. leprae-specific cell-mediated immunity (CMI), whereas the multibacillary form is notable for the lack of antigen-specific CMI. The prevalence of paucibacillary versus multibacillary leprosy varies in different populations. M. leprae cannot be cultured in vitro and grows slowly in the footpads of mice, the liver and spleen of armadillos, and in some nonhuman primates. A genetic component to leprosy susceptibility has long been suspected. While contact with a multibacillary patient increases the relative risk of acquiring disease, most new patients have no known contact with other patients. For further information, see reviews by Fitness et al. (2002), Mira (2006), Moraes et al. (2006), Scollard et al. (2006), and Alter et al. (2008). [from OMIM]

MedGen UID:
332089
Concept ID:
C1835932
Finding
17.

Enhanced S-cone syndrome

An autosomal recessive retinopathy in which patients have increased sensitivity to blue light; perception of blue light is mediated by what is normally the least populous cone photoreceptor subtype, the S (short wavelength, blue) cones. Characteristics include visual loss, with night blindness occurring from early in life, varying degrees of L (long, red)- and M (middle, green)-cone vision, and retinal degeneration. [from MONDO]

MedGen UID:
341446
Concept ID:
C1849394
Disease or Syndrome
18.

Spermatogenic failure 28

Spermatogenic failure-28 (SPGF28) is characterized by nonobstructive azoospermia, with a Sertoli cell-only phenotype observed in testicular tissue (Kasak et al., 2018). For a discussion of genetic heterogeneity of spermatogenic failure, see SPGF1 (258150). [from OMIM]

MedGen UID:
1648494
Concept ID:
C4748117
Disease or Syndrome
19.

Cerebellar atrophy, developmental delay, and seizures

MedGen UID:
1626119
Concept ID:
C4539985
Disease or Syndrome
20.

Hypercoagulability syndrome due to glycosylphosphatidylinositol deficiency

Glycosylphosphatidylinositol is a glycolipid that anchors more than 150 proteins to the cell surface, and these proteins, termed GPI-anchored proteins (GPI-APs), perform a variety of functions as enzymes, adhesion molecules, complement regulators, and coreceptors in signal transduction pathways. Reduced surface levels of GPI-APs or abnormal GPI-AP structure can therefore result in variable manifestations. Glycosylphosphatidylinositol biosynthesis defect-1 (GPIBD1) is characterized predominantly by portal hypertension due to portal vein thrombosis. Most patients have absence seizures, cerebral thrombosis, and macrocephaly. Some patients have mildly to moderately impaired intellectual development (summary by Makrythanasis et al., 2016; Pode-Shakked et al., 2019). Genetic Heterogeneity of Glycosylphosphatidylinositol Biosynthesis Defects Also see GPIBD2 (239300), caused by mutation in the PIGV gene (610274); GPIBD3 (614080), caused by mutation in the PIGN gene (606097); GPIBD4 (300868), caused by mutation in the PIGA gene (311770); GPIBD5 (280000), caused by mutation in the PIGL gene (605947); GPIBD6 (614749), caused by mutation in the PIGO gene (614730); GPIBD7 (615398), caused by mutation in the PIGT gene (610272); GPIBD8 (614207), caused by mutation in the PGAP2 gene (615187); GPIBD9 (615802), caused by mutation in the PGAP1 gene (611655); GPIBD10 (615716), caused by mutation in the PGAP3 gene (611801); GPIBD11 (616025), caused by mutation in the PIGW gene (610275); GPIBD12 (616809), caused by mutation in the PIGY gene (610662); GPIBD13 (616917), caused by mutation in the PIGG gene (616918); GPIBD14 (617599), caused by mutation in the PIGP gene (605938); GPIBD15 (617810), caused by mutation in the GPAA1 gene (603048); GPIBD16 (617816), caused by mutation in the PIGC gene (601730); GPIBD17 (618010), caused by mutation in the PIGH gene (600154); GPIBD18 (618143), caused by mutation in the PIGS gene (610271); GPIBD19 (618548), caused by mutation in the PIGQ gene (605754); GPIBD20 (618580), caused by mutation in the PIGB gene (604122); GPIBD21 (618590), caused by mutation in the PIGU gene (608528); GPIBD22 (618879), caused by mutation in the PIGK gene (605087); GPIBD23 (617020), caused by mutation in the ARV1 gene (611647); GPIBD24 (619356), caused by mutation in the PIGF gene (600153); and GPIBD25 (619985), caused by mutation in the C18ORF32 gene (619979). [from OMIM]

MedGen UID:
1684821
Concept ID:
C5201145
Disease or Syndrome
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