Pages that link to "Q31059513"

The following pages link to Unfolding mechanics of holo- and apocalmodulin studied by the atomic force microscope (Q31059513):

Displaying 13 items.

• Tensile mechanics of alanine-based helical polypeptide: force spectroscopy versus computer simulations. (Q30374669) (← links)
• Reversible mechanical unfolding of single ubiquitin molecules (Q31111292) (← links)
• High sensitivity detection of protein molecules picked up on a probe of atomic force microscope based on the fluorescence detection by a total internal reflection fluorescence microscope (Q33204341) (← links)
• Analysis of force curves obtained on the live cell membrane using chemically modified AFM probes (Q33204424) (← links)
• Nanomechanics of full-length nebulin: an elastic strain gauge in the skeletal muscle sarcomere (Q33450910) (← links)
• A rigidity-enhanced antimicrobial activity: a case for linear cationic α-helical peptide HP(2-20) and its four analogues. (Q33808882) (← links)
• The Ca(2 ) influence on calmodulin unfolding pathway: a steered molecular dynamics simulation study (Q34473871) (← links)
• Nuclear architecture and chromatin dynamics revealed by atomic force microscopy in combination with biochemistry and cell biology (Q37049064) (← links)
• Nanobiomechanics of proteins and biomembrane (Q37109801) (← links)
• The effect of protein complexation on the mechanical stability of Im9. (Q41821044) (← links)
• Mechanically unfolding the small, topologically simple protein L. (Q42161294) (← links)
• Molecular basis of the mechanical hierarchy in myomesin dimers for sarcomere integrity. (Q42249535) (← links)
• mRNA detection of individual cells with the single cell nanoprobe method compared with in situ hybridization (Q42854923) (← links)