Replication and transcription involves a parental DNA strand that is the foundation on which the products are built on.Replication and transcription both have initiation step which involve the breakage of the parental DNA strand.Replication and transcription both have specific proteins that keep the polymerase molecule attached to the parental DNA strand. There are elongation factors for transcription and sliding clamp for replication.Both processes use DNA topoisomerases to relieve supercoiling.Both processes only proceed in the 5' to 3' direction.Replication and transcription both involve the addition of specific 3' endings. In replication, it is the addition of the GGGTTA sequence by telomerase. In transcription, it is the addition of the poly-A tail.Both processes used nucleotides as the language on which the daughter strands come from.Replication and transcription involve the hydrolysis of a phosphodiester bonds to begin their process.Both processes take place in the nucleus.
Sliding joints are those which allow small sliding movements between the bones, for example, the vertebrae of the backbone, allowing the back to bend. The wrist is a pivot joint. Wrist bones
In prokaryotes: DNA gyrase - a topoisomerase II protein that introduces negative supercoils in the DNA to reduce torsional stressDNA helicase - breaks the hydrogen bonds between nucleotides and unzips the DNA double helixSingle stranded binding proteins - stabilize DNA be keeping the DNA strands from reannealingDNA Polymerase III - polymerizes nucleotides forming a new DNA strandLoading clamp - loads the DNA strand into pol IIIDNA Primase - lays down an RNA primer on the lagging strandDNA Polymerase I - replaces RNA primer with DNADNA Ligase - ligates DNA strand together on the lagging strandIn eukaryotes:DNA Pol III is replaced by DNA Pol DeltaPol I is replaced by Pol AlphaRPA - replication protein A replaces the SSBsRFC - replication factor C replaces DNA loading clampPCNA replaces the beta subunit
Cooley clamp
There are two places where sliding joints can be found: between the vertebrae and in the wrist.
First of all, in prokaryotes, the beta clamp is a dimer. A dimer is made from two [identical] monomers; in this case the monomers are [complexly folded] protein strands.Secondly, these two dimers form two halves of a Ring - this Ring surrounds or encompasses the Dna strand, thereby forming a clamp that, while securely connected to the Dna strand, can easily move 'laterally' along the DNA strand.All of the large enzymes that Act upon and Process Dna use the beta clamp as The-Go-Between point of attachment.In eukaryotes, the biochemical moiety that performs the same function as the beta clamp is a trimer and is called PCNA - the Proliferating Cell Nuclear Antigen.
First of all, in prokaryotes, the beta clamp is a dimer. A dimer is made from two [identical] monomers; in this case the monomers are [complexly folded] protein strands.Secondly, these two dimers form two halves of a Ring - this Ring surrounds or encompasses the Dna strand, thereby forming a clamp that, while securely connected to the Dna strand, can easily move 'laterally' along the DNA strand.All of the large enzymes that Act upon and Process Dna use the beta clamp as The-Go-Between point of attachment.In eukaryotes, the biochemical moiety that performs the same function as the beta clamp is a trimer and is called PCNA - the Proliferating Cell Nuclear Antigen.
First of all, in prokaryotes, the beta clamp is a dimer. A dimer is made from two [identical] monomers; in this case the monomers are [complexly folded] protein strands.Secondly, these two dimers form two halves of a Ring - this Ring surrounds or encompasses the Dna strand, thereby forming a clamp that, while securely connected to the Dna strand, can easily move 'laterally' along the DNA strand.All of the large enzymes that Act upon and Process Dna use the beta clamp as The-Go-Between point of attachment.In eukaryotes, the biochemical moiety that performs the same function as the beta clamp is a trimer and is called PCNA - the Proliferating Cell Nuclear Antigen.
There are many types of wood tools that construction workers use. Some of them are a chisel, a sliding bevel, a block plane, a clamp, a feather board and a saw horse.
hold open your door handle and push the lock back in to place where the jaws clamp on to the door post
There are many types of wood tools that construction workers use. Some of them are a chisel, a sliding bevel, a block plane, a clamp, a feather board and a saw horse.
Usually simply by opening the seat post clamp and sliding the seat post down. Sometimes by either cutting the post down to make it shorter or by buying a shorter post.
Best Answer:Sash Clamp is used to clamp together when it is glued.
Out away that clamp Chair
to clamp the buret
The full form of TC clamp is TRI-CLOVER CLAMP.
bench voice, voice grip, g clamp, c clamp, hand clamp, jumper cable. these are only hand tools