The deficiency of a lysosomal acid hydrolase in two clones derived from the human lymphoblastoid line F137 after mutagen treatment |
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| Authors: | S ELIZABETH GARDINER DALLAS M SWALLOW HARRY HARRIS † ELIZABETH ARTHUR H J EVANS |
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| Institution: | M.R.C. Human Biochemical Genetics Unit, The Gallon Laboratory, University College London, Wolfson House, 4 Stephenson Way, London NW1 2HE;M.E.C. Clinical and Population Cytogenetics Unit, The Western General Hospital, Crewe Road, Edinburgh EH4 2XU |
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| Abstract: | Two clones (out of a total of 181 clones tested) derived from the human lymphoblastoid (lymphoid) line F137 after mutagen treatment were found to be deficient in a lysosomal acid hydrolase. The clone N32 derived from EMS-treated F137 is deficient in N-acetyl hexosaminidase A and B but contains normal levels of N-acetyl hexosaminidase C and low levels of an enzyme resembling N-acetyl hexosaminidase S. Thus the enzyme deficiency in this clone appears to resemble the so-called Sandhoff variant of Tay-Sachs disease, a disease inherited as an autosomal recessive condition. The clone G3 derived from MNNG treated F137 is deficient in alpha-galactosidase A. This clone resembles the situation in X-linked Fabry's disease. Karyotype analysis of the clones failed to reveal any chromosome rearrangement or losses of chromosomal material that might have accounted for the mutations and it is suggested that a single point mutation might in each case account for the loss of enzyme activity. No storage of the natural substrates of the two enzymes could be demonstrated in the clones. |
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