6533b7dafe1ef96bd126d85f

RESEARCH PRODUCT

X-inactivation pattern in three cases of X/autosome translocation.

Bernhard U. ZabelWalter A. BaumannWilfried PirntkeKathrein Gerhard-ratschowUta Francke

subject

AdultX ChromosomeChromosomal translocationBiologyX-inactivationChromosomesTranslocation Geneticchemistry.chemical_compoundX autosome translocationIntellectual DisabilityChromosomes Human 21-22 and YHumansAbnormalities MultipleGenetics (clinical)X chromosomeGeneticsCell specificSex ChromosomesMosaicismAcridine orangeCenter (category theory)InfantKaryotypeMolecular biologychemistryChild PreschoolKaryotypingAcridinesFemaleChromosomes Human 13-15

description

We describe an X/15 translocation which was balanced in a phenotypically normal mother [46,X,t(X;15)(p22;q15)] and unbalanced in her phenotypically abnormal daughter [46,X,der(X),t(X;15)(p22;q15)mat]. A third case involves a balanced X/21 translocation in a girl with a multiple congenital anomaly-retardation syndrome [46,X,t(X;21)(p11;p11?)]. 5-BrdU acridine orange banding on lymphocytes revealed late replication of the normal X chromosome in the mother and of the normal or abnormal X chromosome in the two other cases. Our findings are only partially consistent with previous observations. All X-inactivation patterns can be explained by random inactivation and subsequent selection against specific cell lines. Furthermore, the findings in our patient with X/21 translocation support the hypothesis of the existence of one inactivation center on Xq.

yearjournalcountryeditionlanguage
1978-01-01American journal of medical genetics
10.1002/ajmg.1320010307https://pubmed.ncbi.nlm.nih.gov/677170