If 1 bacterium = 1st generation
2 Bacteria = 2nd generation
4 bacteria = 3rd generation
8 bacteria = 4th generation
16 bacteria = 5th generation
32 bacteria = 6th generation.
There will be 32 bacteria in the 6th generation.
Unfortunately I don’t think your question was typed correctly unfortunately. But I’ll try my best!
Interphase, Prophase, Metaphase, Anaphase, Telophase and Cytokinesis (these tend to be lumped together in my classes.)
I remember them in a weird way.
Interphase- In rest/chaos (depending on how you want to look at it). The DNA is all jumbled up inside the nucleus, just chilling and doing its normal stuff.
Prophase-proper. The DNA now decides hey, time to get our stuff together and get into our chromosomes.
Metaphase-middle. The chromosomes line up at the metaphasal plate, ready to get splitting (and a bunch of other junk, depending on which mitosis we’re talking about.)
Anaphase- apart. Now that the chromosomes have done their duties, we now have chromaTIDS (tidbit chromosomes) who get pulled to opposite ends of the cell.
Telophase/Cytokinesis- “tear apart” and a new cytoplasm! Now we’ve got new daughter cells!
Answer:
DNA damage signaling processes are essential foe regulating the G0 transition within the cell cycle.
Explanation:
Cell cycle is a process which prepares a cell for division.Cell cycle has various phases G0 phase,G1 phase,S phase,G2 phase and M phase.Each phase is specialized for its particular function.
Every phases of a cell cycle is under tight regulation of various proteins and this regulation is very much important to maintain the normal level of principle constituents of a cell.
DNA damage is detected by G1 cyclin CDK protein which transit the cell containing the damaged DNA into the G0 phase or quiescent phase for repair and if the damage cannot be repaired then the cell containing damaged DNA is targeted for destruction by ubiquitin pathway.
The correct answer is option D
Both are made up of the same nucleotide, but in a different sequence
DNA is made up of same set of nucleotide only the sequence is different which generates different set of amino acids forming the proteins of different types.Proteins are the building blocks of DNA which are responsible for different characteristics of an individual.
Oxidation and reduction. ... It refers to electrochemical processes<span> involving electron transfer to or from a molecule or ion changing its oxidation state. This reaction can occur through the application of an external voltage or through the release of chemical energy.</span>