The fluorescent protein stability assay: an efficient method for monitoring intracellular protein stability.

The stability of intracellular proteins is highly variable, from a few minutes to several hours, and can be tightly regulated to respond to external and internal cellular environment changes. Several techniques can be used to study the stability of a specific protein, including pulse-chase labeling and blocking of translation. Another approach that has gained interest in recent years is fusing a protein of interest to a fluorescent reporter.

Changes in the expression of telomere maintenance genes suggest global telomere dysfunction in B-chronic lymphocytic leukemia.

In this study, we explored the telomeric changes that occur in B-chronic lymphocytic leukemia (B-CLL), in which telomere length has recently been demonstrated to be a powerful prognostic marker. We carried out a transcriptomic analysis of telomerase components (hTERT and DYSKERIN), shelterin proteins (TRF1, TRF2, hRAP1, TIN2, POT1, and TPP1), and a set of multifunctional proteins involved in telomere maintenance (hEST1A, MRE11, RAD50, Ku80, and RPA1) in peripheral B cells from 42 B-CLL patients and 20 healthy donors. We found that, in B-CLL cells, the expressions of hTERT, DYSKERIN, TRF1, hRAP1, POT1, hEST1A, MRE11, RAD50, and KU80 were more than 2-fold reduced (P < .