Blebbing
Journal of Ecosystem and Ecography is an international open access journal which is celebrating 10th Anniversary , publishing the quality peer-reviewed research articles relevant to the field of Environmental Sciences.
As our journal has completed 10 years we are celebrating 10th anniversary we have announced almost 50 percent discount on article processing charge to commemorate its 10th Anniversary so we are inviting eminent researches,fellowmans, science students, scientists for the submission of their valuable,innovative articles which would be helpful to our journal publication in forth coming issue( volume10, issue 1) .
We would like to invite eminent researches to write a paper or short commentaries on the below discussed topics which would be helpful for the readers for their information
Submit manuscript at https://www.scholarscentral.org/submissions/ecosystem-ecography.html
In cell biology, a bleb is a bulge of the plasma membrane of a cell, human bioparticulate or abscess with an internal environment synonymous to that of a simple cell, characterized by a spherical, bulky morphology. It is characterized by the decoupling of the cytoskeleton from the plasma membrane, degrading the internal structure of the cell, allowing the flexibility required to allow the cell to separate into individual bulges or pockets of the intercellular matrix. Most commonly, blebs are seen in apoptosis (programmed cell death) but are also seen in other non-apoptotic functions. Blebbing, or zeiosis, is the formation of blebs.
Formation
Bleb growth is driven by intracellular pressure generated in the cytoplasm when the actin cortex undergoes actomyosin contractions. The disruption of the membrane-actin cortex interactions are dependent on the activity of myosin-ATPase
Bleb formation can be initiated in two ways: 1) through local rupture of the cortex or 2) through local detachment of the cortex from the plasma membrane. This generates a weak spot through which the cytoplasm flows, leading to the expansion of the bulge of membrane by increasing the surface area through tearing of the membrane from the cortex, during which time, actin levels decrease. The cytoplasmic flow is driven by hydrostatic pressure inside the cell.
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Contact:
Grace
Journal Manager
Journal of Ecosystem and Ecography