Dissecting Sequence-Structure-Function-Diversity in Plant Cryptochromes.

Ubiquitous to every stratum of life, cryptochromes regulate numerous light dependent functions in terrestrial plants. These include light-dependent transcription, circadian rhythm, inhibition of hypocotyl elongation, programmed cell death, promotion of floral initiation, mediation of gravitropic response, responding to biotic and abiotic stress etc. There have been quite a few seminal reviews including on plant cryptochromes, focusing mostly on the detailed functional aspects.

Heterogeneity in winged helix-turn-helix and substrate DNA interactions: Insights from theory and experiments.

Specific interactions between transcription factors (TFs) and substrate DNA constitute the fundamental basis of gene expression. Unlike in TFs like basic helix-loop-helix or basic leucine zippers, prediction of substrate DNA is extremely challenging for helix-turn-helix (HTH). Experimental techniques like chromatin immunoprecipitation combined with massively parallel DNA sequencing remains a viable option.

Designing synthetic transcription factors: A structural perspective.

In this chapter, we discuss different design strategies of synthetic proteins, especially synthetic transcription factors. Design and engineering of synthetic transcription factors is particularly relevant for the need-based manipulation of gene expression. With recent advances in structural biology techniques and with the emergence of other precision biochemical/physical tools, accurate knowledge on structure-function relations is increasingly becoming available.