Question

In: Biology

DNA transposase binds to the ____ during transposition, with the ____ resulting from the ____ generated...

DNA transposase binds to the ____ during transposition, with the ____ resulting from the ____ generated at the target site.

Solutions

Expert Solution

DNA transposons are the jumping genes that can move from the one genome to the other as per the presence of thee sequences and the number of sequences. The genes follow the cut and paste mechanism for the transfer from one part to the other part of the genome. The gene which is transferred from one part is transposons and thus moved with the help of enzyme transposase which helps in the cutting of the gene through the bond hydrolysis and then further guided to bind at the complementary sequence in the genome and alter its position. These transposons have many applications such as antibiotic-resistant bacteria development or the different color of the maize kernel also to bring the hybrid variety plants in the markets to give beneficial effects for the community. Along with this, the industry usage of the transposons will also help in stabilizing the economy by such genetic manipulation and use of it for future references.

Thus the answer to the question can be as follows:

DNA transposase binds to the end of transposons during the transposition, with the other gene resulting from the cut and paste generated at the targeted site.

gladiator answered 1 year ago
Next > < Previous

Related Solutions

a) Initially binds to damaged DNA: __________
Fill in the blanks with the following options. You will not use every answer.DAM, MutL, MutH, MutS, DNA polymerase I, DNA polymerase II, DNA polymerase III, DNA polymerase IVa) Initially binds to damaged DNA: __________b) The matchmaker - brings together the two other proteins ___________c) The endonuclease that cuts the DNA at the damaged site ___________d) Polymerizes DNA into the gap excised by the endonuclease ____________e) This is the protein responsible for the Mut proteins knowing which strand is the...
During eukaryotic transcription, TFIID recognizes and binds the ____ box in the DNA. The technique initially...
During eukaryotic transcription, TFIID recognizes and binds the ____ box in the DNA. The technique initially used in the identification of promoter sequences was ________________. A more contemporary technique for identification of promoter sequences is the _________ _____________________ assay.
What role does the Chelex play in the isolation of genomic DNA? A) binds DNA so...
What role does the Chelex play in the isolation of genomic DNA? A) binds DNA so that impurities can be washed away B) binds divalent metal cations that inhibit the PCR reaction C) prevents the single-stranded DNA from reannealing during PCR D) immobilizes DNA polymerase preventing its denaturation at high temperatures
What DNA products would be generated if one of the proteins including DNA polymerase, DNA ligase,...
What DNA products would be generated if one of the proteins including DNA polymerase, DNA ligase, sliding clamp for DNA polymerase, nuclease that removes DNA primers, DNA helicase, and primase, were missing?
Ciprofloxacin inhibits DNA gyrase. Erythromycin binds in front of the A site on the 50S ribosomal...
Ciprofloxacin inhibits DNA gyrase. Erythromycin binds in front of the A site on the 50S ribosomal subunit. Acyclovir is a guanine analog Please tell me what steps in protein synthesis are inhibited by each drug. Speculate as to which drug is moreeffective agains bacteria and why. From your knowledge gained in this Unit which drug will have effect on the host's cells and why.
The “Skinny Bacteria” research company has generated a synthetic chemical called "WPT" that binds to LacR...
The “Skinny Bacteria” research company has generated a synthetic chemical called "WPT" that binds to LacR and causes a shift in its structure. Provide a written description for what you think will happen to cellular levels of LacZ if WPT is added to the bacterial growth environment.
In isolation, a DNA-binding protein binds to its regulatory sequence with a Kd of 1.0 microM....
In isolation, a DNA-binding protein binds to its regulatory sequence with a Kd of 1.0 microM. Another DNA binding protein binds to another sequence on the same DNA a few bases away with a Kd of 5.0 microM when alone. The two proteins each have a domain which binds to the other, with an interaction energy of -2.7 kcal/mole: (a) Draw the thermodynamic box which represents all four states of this system. (b) what are the affinities for each protein...
I discovered a new transcription activator (a protein that binds a specific DNA sequence at promoters...
I discovered a new transcription activator (a protein that binds a specific DNA sequence at promoters of genes) and helps bring in the SWI/SNF complex to the promoters of 200 genes. What would be the affect on chromatin organization and gene expression at these genes if I mutate the transcription activator such that it no longer is able to bind DNA?
How does a point mutation in the DNA have the possibility of resulting in no phenotypic...
How does a point mutation in the DNA have the possibility of resulting in no phenotypic change in an organism. Explain.
For each of below python socket functions, describe network traffic (resulting TCP packets) that is generated...
For each of below python socket functions, describe network traffic (resulting TCP packets) that is generated at the TCP level. Note: s represents an open socket. Python network APIs Resulting TCP packets s=socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect(('127.0.0.1', 8080)) s.send('ABC'.encode('utf-8')) data = s.recv(2000) s.shutdown(socket.SHUT_WR)
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT