Early cleavage divisions in most embryos are also rapid. One reason for this is that cleaving cells have a modified cell cycle, in which the two gap phases, G1 and G2 are completely omitted, and the cells cycle rapidly between M and S phases. In addition, because the major cytoskeletal systems of the cells are largely devoted to mitosis (microtubules) and cytokinesis (microfilaments) during rapid cleavage division, there is typically an antagonism between periods of rapid cell division and cell movement. Thus as the embryo approaches gastrulation, there is a tremendous slowing in the rate of division (note the slope of the curve at the right).
A- they can digest insects :)
Answer:
The cell is a factory
Nucleus- control room
DNA/chromosomes- factory manager
Ribosomes- Assembly workers
Endoplasmic Reticulum- production line
Lysosomes- Custodians
Mitochondria- Power Generators
Golgi Apparatus- Shipping department
Cytoplasm- Factory Interior
Vesicles- Items to be shipped
Vacuole- Warehouse for storage of products
Pores/Gated Channels- Loading Dock
Cell Membrane- Security Fence
The answer to this question would be more movement.
The amphiarthrodial joint is a joint that you will found in the rib cage. This joint doesn't have a synovial cavity and only allow a little movement.
But synarthrodial joints movement is practically zero. The example for <span>synarthrodial joint would be suture in your skull. Skull joint in adult can't move so its volume can't be changed.</span>
