Studies on actomyosin crossbridge flexibility using a new single molecule assay.

Gundapaneni, Deepika

05 1900

Several key flexure sites exist in the muscle crossbridge including the actomyosin binding site which play important roles in the actomyosin crossbridge cycle. To distinguish between these sources of flexibility, a new single molecule assay was developed to observe the swiveling of rod about a single myosin. Myosins attached through a single crossbridge displayed mostly similar torsional characteristics compared to myosins attached through two crossbridges, which indicates that most of the torsional flexibility resides in the myosin subfragment-2, and thus the hinge between subfragment-2 and light meromyosin should contribute the most to this flexibility. The comparison of torsional characteristics in the absence and presence of ADP demonstrated a small but significant increase in twist rates for the double-headed myosins but no increase for single-headed myosins, which indicates that the ADP-induced increase in flexibility arises due to changes in the myosin head and verifies that most flexibility resides in myosin subfragment-2.

Actomyosin.

actomyosin

crossbridge

single molecule assay

Encounter of T7 Replisome with Abasic DNA Lesion

Alhudhali, Lubna F.

11 1900

In order to monitor the T7 replisome fate upon encountering abasic lesion, I optimized a single molecule flow stretching assay where the replisome encounters either abasic site or undamaged site inserted at 3.5 kilobases from the replication fork. The obtained events were categorized into three groups; bypass, restart and permanent stop. The results showed 52% bypass, 39% pause and 9% stop upon encountering the abasic lesion. The pause duration in the restart events was found to be ten times longer than the undamaged one. Moreover, an ensemble experiment was performed, and the results were slightly consistent with regard to the bypass percentage (70%) but the stoppage percentage was significantly higher in the ensemble replication reaction (30%). Further investigations were made and it was found that the rate of the T7 replisome increases after bypassing the abasic lesion. To inquire more about this rate switch and the difference between the single molecule and ensemble results, another unwinding experiment was performed where only gp4 (helicase) was used from the replisome. Interestingly, the rate of DNA unwinding by gp4 was similar to the rate observed after the replisome bypasses the lesion. We hypothesize that the polymerase is stalled at the abasic site and its interaction with the helicase is lost. Consequently, the helicase and the polymerase will uncouple where the helicase continues unwinding the DNA to result in a higher observed rate after bypassing the abasic site. Additional studies will be performed in the future to directly observe the helicase and polymerase uncoupling upon encountering the lesion.

Abasic Lesion

T7 Replisome

DNA replication

DNA damage

Flow stretching single molecule assay

Replication fork