Not exact matches
Derived from supramolecular chemistry [4], the new compounds synthesized by the researchers have original properties:
within several minutes, they bring about the growth
of lamellar networks
of actin filaments.
Meanwhile, another group
of French researchers identified the same protein, ARHGAP10, as a partner with two other molecules — Arf1 and Arf6 — involved in both
actin dynamics deep
within the cell and the turnover
of adherens junctions.
The greater the calcium content
within your muscle cells, the greater the interaction between
actin and myosin, which ultimately increases the force
of the contractions leading to increased strength.
For the science geeks, this is an increase in the number and size
of the
actin and myosin filaments
within a muscle.
When sarcomeres attempt to reduce length by increasing the amount
of actin and myosin filaments that overlap, this produces tensile force
within the muscle fiber that ultimately leads to muscle contractions.