Disruption of the human SCL locus by" illegitimate" V-(D)-J recombinase activity
PD Aplan, DP Lombardi, AM Ginsberg, J Cossman… - Science, 1990 - science.org
A fusion complementary DNA in the T cell line HSB-2 elucidates a provocative mechanism
for the disruption of the putative hematopoietic transcription factor SCL. The fusion cDNA
results from an interstitial deletion between a previously unknown locus, SIL (SCL
interrupting locus), and the 5′ untranslated region of SCL. Similar to 1; 14 translocations,
this deletion disrupts the SCL 5′ regulatory region. This event is probably mediated by V-
(D)-J recombinase activity, although neither locus is an immunoglobulin or a T cell receptor …
for the disruption of the putative hematopoietic transcription factor SCL. The fusion cDNA
results from an interstitial deletion between a previously unknown locus, SIL (SCL
interrupting locus), and the 5′ untranslated region of SCL. Similar to 1; 14 translocations,
this deletion disrupts the SCL 5′ regulatory region. This event is probably mediated by V-
(D)-J recombinase activity, although neither locus is an immunoglobulin or a T cell receptor …
A fusion complementary DNA in the T cell line HSB-2 elucidates a provocative mechanism for the disruption of the putative hematopoietic transcription factor SCL. The fusion cDNA results from an interstitial deletion between a previously unknown locus, SIL (SCL interrupting locus), and the 5′ untranslated region of SCL. Similar to 1;14 translocations, this deletion disrupts the SCL 5′ regulatory region. This event is probably mediated by V-(D)-J recombinase activity, although neither locus is an immunoglobulin or a T cell receptor. Two other T cell lines, CEM and RPMI 8402, have essentially identical deletions. Thus, in lymphocytes, growth-affecting genes other than immune receptors risk rearrangements.
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