+ Resolve Article
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter

+ Translate
+ Subscribe to Site Feed
GeoScience Most Shared ContentMost Shared Content

A severely retarded male with deletion of chromosomes 15 (pter leads to q13) and 10 (q 26 leads to qter)

, : A severely retarded male with deletion of chromosomes 15 (pter leads to q13) and 10 (q 26 leads to qter). Journal of Medical Genetics 19(1): 77-77


PMID: 7069753

Other references

Bader, M.; Van Weyenbergh, T.; Verwerft, E.; Van Pul, J.; Lang, S.; Oberlinner, C., 2015: Human biomonitoring after chemical incidents and during short-term maintenance work as a tool for exposure analysis and assessment. Human biomonitoring (HBM) is frequently used for the analysis and assessment of exposure to chemicals under routine working conditions. In recent years, HBM has also been applied to monitor the exposure of the general population, and of emergency...

Young, M-Lon.; McLeary, M.; Chan, K-Chen., 2017: Acquired and congenital coronary artery abnormalities. Sudden unexpected cardiac deaths in approximately 20% of young athletes are due to acquired or congenital coronary artery abnormalities. Kawasaki disease is the leading cause for acquired coronary artery abnormalities, which can cause late coronar...

Herz, E.K., 1989: Infertility and bioethical issues of the new reproductive technologies. The scientific breakthroughs resulting in the delivery of Louise Brown in 1978 have opened the floodgates for an ongoing bioethical discussion about medically assisted reproduction. The majority in our society has accepted in vitro fertilization a...

Maurer, H.H., 2004: Position of chromatographic techniques in screening for detection of drugs or poisons in clinical and forensic toxicology and/or doping control. This paper reviews chromatographic screening procedures for simultaneous detection of several drug classes relevant to clinical and forensic toxicology or doping control in urine or blood using gas chromatography-mass spectrometry (GC-MS), liquid...

Marmo, R.; Koch, M.; Cipolletta, L.; Bianco, M.Antonia.; Grossi, E.; Rotondano, G.; Pera, A.; Rocca, R.; Dezi, A.; Fasoli, R.; Brunati, S.; Lorenzini, I.; Germani, U.; Giorgio, P.; Imperiali, G.; Minoli, G.; Barberani, F.; Boschetto, S.; Martorano, M.; Gatto, G.; Amuso, M.; Pastorelli, A.; Torre, E.Sainz.; Triossi, O.; Buzzi, A.; Cestari, R.; Della Casa, D.; Proietti, M.; Tanzilli, A.; Aragona, G.; Giangregorio, F.; Allegretta, L.; Tronci, S.; Michetti, P.; Romagnoli, P.; Nucci, A.; Rogai, F.; P, 2015: Predicting mortality in patients with in-hospital nonvariceal upper GI bleeding: a prospective, multicenter database study. Nonvariceal upper GI bleeding (NVUGIB) that occurs in patients already hospitalized for another condition is associated with increased mortality, but outcome predictors have not been consistently identified. To assess clinical outcomes of NVUGIB a...

Wu, H.; Kosaka, H.; Kato, J.; Kuroda, A.; Ikeda, T.; Takiguchi, N.; Ohtake, H., 1999: Cloning and characterization of Pseudomonas putida genes encoding the phosphate-specific transport system. The pstSCAB genes of Pseudomonas putida PRS2000, encoding the phosphate (Pi)-specific transport (Pst) system, were cloned. The pstS gene of Pseudomonas aeruginosa PAO1, of which the pstCAB genes had been cloned previously, was also cloned (Nikata,...

Dumaswala, U.J.; Kavecansky, J.; Wilson, M.; Leung, K.; Joiner, H.; Daleke, D., 1996: Characterization of RBC vesiculation during storage. Transfusion (Bethesda) 36(9 SUPPL ): 11S

Watanabe M.; Harada N.; Shiga T., 1991: Application of microscopic reflectance spectrophotometer for pial vessels of rat brain. Japanese Journal of Physiology 41(SUPPL): S74

Strimple, Harrell L., 1948: Peremistocrinus from the Dewey Limestone Formation, Oklahoma. Of 58 specimens of this Pennsylvanian crinoid, only 22 retain the primitive anal plate pattern, the others showing modifications toward separation of the anal plates from the basals. Most of the specimens are of P. impressus.

Selli Raimondo, 1954: La limite plio-pleistocene dans les environs d'Ancona (Marche). Defines the Plio-Pleistocene boundary in the Ancona region, Marches, Italy, on the basis of foraminiferal zones which contain temperate, cool, and cold-climate forms.