Nanoscale Structure, Interactions, and Dynamics of Centromere Nucleosomes.

Centromeres are specific segments of chromosomes comprising two types of nucleosomes: canonical nucleosomes containing an octamer of H2A, H2B, H3, and H4 histones and CENP-A nucleosomes in which H3 is replaced with its analogue CENP-A. This modification leads to a difference in DNA wrapping (∼121 bp), considerably less than 147 bp in canonical nucleosomes. We used atomic force microscopy (AFM) and high-speed AFM (HS-AFM) to characterize nanoscale features and dynamics for both types of nucleosomes.

The Interaction of NF-κB Transcription Factor with Centromeric Chromatin.

Centromeric chromatin is a subset of chromatin structure and governs chromosome segregation. The centromere is composed of both CENP-A nucleosomes (CENP-A) and H3 nucleosomes (H3) and is enriched with alpha-satellite (α-sat) DNA repeats. These CENP-A have a different structure than H3, decreasing the base pairs (bp) of wrapped DNA from 147 bp for H3 to 121 bp for CENP-A.

The Interaction of NF-κB Transcription Factor with Centromeric Chromatin.

Centromeric chromatin is a subset of chromatin structure and governs chromosome segregation. The centromere is composed of both CENP-A nucleosomes (CENP-A ) and H3 nucleosomes (H3 ) and is enriched with alpha-satellite (α-sat) DNA repeats. These CENP-A have a different structure than H3 , decreasing the base pairs (bp) of wrapped DNA from 147 bp for H3 to 121 bp for CENP-A .

Three-Way DNA Junction as an End Label for DNA in Atomic Force Microscopy Studies.

Atomic Force Microscopy (AFM) is widely used for topographic imaging of DNA and protein-DNA complexes in ambient conditions with nanometer resolution. In AFM studies of protein-DNA complexes, identifying the protein's location on the DNA substrate is one of the major goals. Such studies require distinguishing between the DNA ends, which can be accomplished by end-specific labeling of the DNA substrate.

Modular nanoarray vaccine for SARS-CoV-2.

The current vaccine development strategies for the COVID-19 pandemic utilize whole inactive or attenuated viruses, virus-like particles, recombinant proteins, and antigen-coding DNA and mRNA with various delivery strategies. While highly effective, these vaccine development strategies are time-consuming and often do not provide reliable protection for immunocompromised individuals, young children, and pregnant women. Here, we propose a novel modular vaccine platform to address these shortcomings using chemically synthesized peptides identified based on the validated bioinformatic data about the target.

Peptide Nanoarray Scaffold Vaccine for SARS-COV-2 and Its Variants of Concerns.

The current vaccine development strategies for the COVID-19 pandemic utilize whole inactive or attenuated viruses, virus-like particles, recombinant proteins, and antigen-coding DNA and mRNA with various delivery strategies. While highly effective, these vaccine development strategies are time-consuming and often do not provide reliable protection for immunocompromised individuals, young children, and pregnant women. Here, we propose a novel modular vaccine platform to address these shortcomings using chemically synthesized peptides and identified based on the validated bioinformatic data about the target.

Effect of histone H4 tail on nucleosome stability and internucleosomal interactions.

Chromatin structure is dictated by nucleosome assembly and internucleosomal interactions. The tight wrapping of nucleosomes inhibits gene expression, but modifications to histone tails modulate chromatin structure, allowing for proper genetic function. The histone H4 tail is thought to play a large role in regulating chromatin structure.

Transcription factor NF-κB unravels nucleosomes.

NF-κB is a transcription factor responsible for activating hundreds of genes in mammalian organisms. To accomplish its function, NF-κB must interact with DNA occupied by nucleosomes, but how this interaction occurs is unclear. Here we used Atomic Force Microscopy to characterize complexes of NF-κB with nucleosomes assembled on different DNA templates.