作者:Jeremy Wright 7 年以前
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DNA polymerase I removes the RNA bases from the 5' end
The primer begins the leading strand. The existing strand is now the template strand. DNA polymerase III begins putting down the new bases. The lagging strand is synthesized in okazaki fragments. DNA ligase puts together the okazaki fragments.
Replication begins at the ORI, where helices begins to unwind the DNA. Topoisomerase releases tension ahead of the replication fork. The RNA primers are created to begin elongation.
Cytosine
Guanine
Thymine
Adenine
DNA was discovered to be Semi-Conservative though the experiments by Messleson and Stahl. Both strands of parental molecule separate and each template synthesizes a new, complementary strand.
Cells Signal one another frequently to tell other cells to begin replication, beginning at the phospholipid-bilayer.
This involves the Phospholipid-bilayer; where signal molecules activate cellular process, beginning with the attachment to a receptor.
the point in the DNA at which replication begins
point at which the two DNA strands begin to separate for replication
Synthesizes in a direction away from the fork
Synthesizes in a direction toward the replication fork
Prevents DNA from "overwinding" by releasing tension ahead of the replication
Connects fragments of DNA
Removes RNA primer and replaces it with DNA
Synthesizes new DNA strands by adding nucleotides to 3' end of RNA primer
Creates RNA primer and places one at 5' end of leading strand and several on lagging strand
Unwinds parental double helix at replication forks
During RNA processing, the introns are cut out and the eons are spliced together.
A 5' cap and a Poly A tail are added to the two ends of a eukaryotic pre-mRNA molecule in order to 1.) facilitate the export of mature RNA from the nucleus 2.) protect the mRNA from degrading 3.)help ribosomes attach to the 5' end of the mRNA when it is in the cytoplasm.
The RNA transcript is release and the polymerase detaches from the DNA
The polymerase moves downstream, unwinding the DNA and elongating the RNA transcript in 5' to 3' direction.
RNA polymerase binds to the promote, the DNA strands unwind, and the polymerase initiates RNA synthesis at the start point on the template strand
Eukaryotes
3. Other transcription factors bind to the DNA along with RNA polymerase II, forming the transcription initiation complex.
2. Transcription factors bind to the DNA before RNA polymerase II can bind to it.
1. The eukaryotic promoter has a TATA box which is a nucleotide sequence containing TATA.
Ribosome translocates tRNA in the A site to the P site. The empty tRNA in the P site is moved to the E site where it gets released. The mRNA moves with its bound tRNAs, which bring the next codon to the A site so it can be translated.
Anticodon of aminoacyl tRNA base pairs with complementary mRNA codon in A site. Hydrolysis of GTP is present in this step. The aminoacyl tRNA with the appropriate anticodon binds and proceeds with the cycle.
Rough ER
Smooth ER
free or bound
proteins
Endocytosis
Pinocytosis
Phagocytosis
Receptor Mediated
Food Vacuole
Central Vacuole
Glycerol
Fatty Acids (Fats)
Lipids
Present in plants, a layer of cellulose and chitin which protects the cell.
Triglycerides (Fats)
Unsaturated
Oils
Saturated
A membrane-bound receptor which undergoes a conformational change once the signal molecule attaches to the receptor. Allows for the passage of ions.
Allows for the transfer of phosphate from ATP to the tyrosine kinase regions of a dimer, once a signal molecule binds to it.
A cell surface transmembrane receptor that works with the help of a G protein.
Receptor on/in Cell (Plasma) Membrane
Receptor in Cell Nucleus
Receptor in Cell Cytoplasm
Exocrine/Hormonal Signaling
Hormone must travel through the blood stream
Synaptic Signaling
Neurotransmitters released which diffuses across the synapse, stimulating the target cell.
Paracrine Signaling
Involves direct signaling: affects nearby cells
AKA: Amplification (involves Second Messengers)
Distal control elements are enhancers that are located upstream or downstream of a gene
Activators bind to the enhancer sequence and bends the sequence
Proximal control elements are sequences in DNA close to promoter
Transcription factors binds to the proximal elements and transcription is low level
allows RNA pol II to bind weakly
Repressor binds to the enhancer sequence and bends but prevents RNA poly II to bind
Lac I is the lac repressor (regulatory gene)
Can switch off the operon when binding to the operator and it is active by itself.
Lac A adds an acidicyl group to lactose
Enzyme responsible is transacetylase
Lac Y takes in the lactose
Enzymes responsible is permase
Lac Z is a gene that forms mRNA
Enzymes responsible is galactosidase
Nuclesomes are formed when the DNA wraps around the histones twice.
The looped domains coil further.
The 30-nm fiber forms looped domains that attach to proteins.
Interactions between nucleosomes cause the thin fiber to coil or fold into this thicker fiber.
The tight helical fiber needs help of the H1 which is outside the nucleosome.
Nuclesomes are strung together like beads on a string by linker DNA.
Only the H2A, H2B, H3, H4 form the histone core. The H1 is outside and not apart of the code.
Different types of Histones: H1, H2A, H2B, H3, H4