BIOMAT Database Logo BIOMAT Database Logo

A TaqI RFLP identified at the retinoblastoma locus on chromosome 13. 1988

R Shiang, and J C Murray, and J Wiggs, and T Dryja
Department of Pediatrics, University of Iowa, Iowa City 52242.

UI MeSH Term Description Entries
D011110 Polymorphism, Genetic The regular and simultaneous occurrence in a single interbreeding population of two or more discontinuous genotypes. The concept includes differences in genotypes ranging in size from a single nucleotide site (POLYMORPHISM, SINGLE NUCLEOTIDE) to large nucleotide sequences visible at a chromosomal level. Gene Polymorphism,Genetic Polymorphism,Polymorphism (Genetics),Genetic Polymorphisms,Gene Polymorphisms,Polymorphism, Gene,Polymorphisms (Genetics),Polymorphisms, Gene,Polymorphisms, Genetic
D012150 Polymorphism, Restriction Fragment Length Variation occurring within a species in the presence or length of DNA fragment generated by a specific endonuclease at a specific site in the genome. Such variations are generated by mutations that create or abolish recognition sites for these enzymes or change the length of the fragment. RFLP,Restriction Fragment Length Polymorphism,RFLPs,Restriction Fragment Length Polymorphisms
D002882 Chromosomes, Human, Pair 13 A specific pair of GROUP D CHROMOSOMES of the human chromosome classification. Chromosome 13
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D012175 Retinoblastoma A malignant tumor arising from the nuclear layer of the retina that is the most common primary tumor of the eye in children. The tumor tends to occur in early childhood or infancy and may be present at birth. The majority are sporadic, but the condition may be transmitted as an autosomal dominant trait. Histologic features include dense cellularity, small round polygonal cells, and areas of calcification and necrosis. An abnormal pupil reflex (leukokoria); NYSTAGMUS, PATHOLOGIC; STRABISMUS; and visual loss represent common clinical characteristics of this condition. (From DeVita et al., Cancer: Principles and Practice of Oncology, 5th ed, p2104) Glioblastoma, Retinal,Glioma, Retinal,Neuroblastoma, Retinal,Eye Cancer, Retinoblastoma,Familial Retinoblastoma,Hereditary Retinoblastoma,Sporadic Retinoblastoma,Cancer, Retinoblastoma Eye,Cancers, Retinoblastoma Eye,Eye Cancers, Retinoblastoma,Familial Retinoblastomas,Glioblastomas, Retinal,Gliomas, Retinal,Hereditary Retinoblastomas,Neuroblastomas, Retinal,Retinal Glioblastoma,Retinal Glioblastomas,Retinal Glioma,Retinal Gliomas,Retinal Neuroblastoma,Retinal Neuroblastomas,Retinoblastoma Eye Cancer,Retinoblastoma Eye Cancers,Retinoblastoma, Familial,Retinoblastoma, Hereditary,Retinoblastoma, Sporadic,Retinoblastomas,Retinoblastomas, Familial,Retinoblastomas, Hereditary,Retinoblastomas, Sporadic,Sporadic Retinoblastomas
D015252 Deoxyribonucleases, Type II Site-Specific Enzyme systems containing a single subunit and requiring only magnesium for endonucleolytic activity. The corresponding modification methylases are separate enzymes. The systems recognize specific short DNA sequences and cleave either within, or at a short specific distance from, the recognition sequence to give specific double-stranded fragments with terminal 5'-phosphates. Enzymes from different microorganisms with the same specificity are called isoschizomers. EC 3.1.21.4. DNA Restriction Enzymes, Type II,DNase, Site-Specific, Type II,Restriction Endonucleases, Type II,Type II Restriction Enzymes,DNase, Site Specific, Type II,Deoxyribonucleases, Type II, Site Specific,Deoxyribonucleases, Type II, Site-Specific,Site-Specific DNase, Type II,Type II Site Specific DNase,Type II Site Specific Deoxyribonucleases,Type II Site-Specific DNase,Type II Site-Specific Deoxyribonucleases,Deoxyribonucleases, Type II Site Specific,Site Specific DNase, Type II

Related Publications

R Shiang, and J C Murray, and J Wiggs, and T Dryja
A TaqI RFLP at the DRD1 locus.
June 1991, Nucleic acids research,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
A TaqI RFLP at the human TOP1 pseudogene locus on chromosome 22q11.2-13.1 (TOP1P2).
July 1991, Nucleic acids research,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
A TaqI RFLP in the locus D9S29 on human chromosome 9.
December 1989, Nucleic acids research,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
A TaqI RFLP at the EDN1 gene locus.
October 1990, Nucleic acids research,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
A TaqI RFLP at the gas-2 locus.
September 1989, Nucleic acids research,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
A TaqI RFLP at the bovine INHA locus.
April 1995, Animal genetics,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
TaqI RFLP at the LIPC locus in baboons.
February 1996, Animal genetics,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
TaqI RFLP at the bovine IgE gene locus.
October 1993, Animal genetics,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
An intragenic TaqI RFLP at the PAX5 locus.
April 1994, Human molecular genetics,
R Shiang, and J C Murray, and J Wiggs, and T Dryja
RFLP for TaqI at the human tyrosinase locus.
October 1988, Nucleic acids research,
Copied contents to your clipboard!