These results suggested that PAX4R192H polymorphism generated a protein with defect in transcriptional repressor activities on its target genes, which may lead to β-cell dysfunction associated with MODY and early onset-age of T2D as reported in our previous study.
These results suggested that PAX4 R192H polymorphism generated a protein with defect in transcriptional repressor activities on its target genes, which may lead to β-cell dysfunction associated with MODY and early onset-age of T2D as reported in our previous study.
We therefore analyzed several candidate genes of MODY, and identified a novel mutation of a 39-base heterozygous deletion in exon 3 (c.374-412 del39) of PAX4 in the proband and his father.
We therefore analyzed several candidate genes of MODY, and identified a novel mutation of a 39-base heterozygous deletion in exon 3 (c.374-412 del39) of PAX4 in the proband and his father.
We screened PAX4 coding sequences in 46 MODY probands without mutation in known MODY genes and in 74 nondiabetic controls using PCR-single-stranded conformational polymorphism analysis followed by direct sequencing.
We screened PAX4 coding sequences in 46 MODY probands without mutation in known MODY genes and in 74 nondiabetic controls using PCR-single-stranded conformational polymorphism analysis followed by direct sequencing.