To deal with the ABO blood type incompatibility, you decide to inactivate the “I gene” (“ABO...
To deal with the ABO blood type incompatibility, you decide to inactivate the “I gene” (“ABO gene”) using CRISPR. You inject Cas9 and a guide RNA for the middle of the I gene coding region into differentiated red blood cells (RBCs) from the blood. Will this make these RBCs compatible for all recipients? Why or why not?
Homework Answers
This process will make the blood compatible for all the recipients. This is because we have inactivated the gene which encodes for the antigen present on the surface of RBC of different individuals. This antigen is responsible for determining the type of blood present in a person. If this antigen is absent in any of the blood types, then if this blood type is transfused into any person, then no antibodies will be formed against this blood type because of the presence of antigen.
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To deal with the ABO blood type incompatibility, you decide to
inactivate the “I gene” (“ABO...
you decide to engineer blood stem cells with a mutant gene for the “BLT protein” that...
you decide to engineer blood stem cells with a mutant gene for the “BLT protein” that is found in RBC membranes and which is attached to the ABO sugars. Propose a DNA change you could make anywhere except the protein-coding region of the BLT gene that would result in RBCs with no AB sugars. Explain the change in 1-3 sentences
ABO BLOOD TYPE The ABO blood groups in humans are determined by multiple alleles. A single...
ABO BLOOD TYPE The ABO blood groups in humans are determined by multiple alleles. A single gene can exist in any of three allelic forms: 14, Bor i. This inheritance of the ABO blood type displays codominance as well as complete dominance. The two codominant genes A and B code for production of antigen A and antigen B on the surface of red blood cells, and are both completely dominant to the recessive allele i. The chart below shows the...
With respect to genetics, ABO blood types are controlled by a single gene designated I, which...
With respect to genetics, ABO blood types are controlled by a single gene designated I, which has three alleles. The I A allele gives blood type A, I B gives blood type B, and i gives blood type O. The I A and I B alleles are codominant and i allele is recessive to both the I A and I B alleles. Aside from the I alleles, there are two other genes that when mutated affect ABO blood type inheritance....
The ABO blood groups.There are three main alleles in the ABO blood group system -...
The ABO blood groups.There are three main alleles in the ABO blood group system -
IA, IB, and i. We've talked about the ABO
system in class, you can find a brief explanation below and
here.The I gene encodes for a glycosyltransferase
that modifies at the H antigen.The glycosyltransferase encoded by IA adds an 'A'
sugar group to antigen H, the glycosyltransferase encoded by
IB adds a 'B' sugar group and i encodes an inactive
glycosyltransferase that leaves the H...
There are three main alleles in the ABO blood group system - IA, IB, and i....
There are three main alleles in the ABO blood group system -
IA, IB, and i. We've talked about the ABO
system in class, you can find a brief explanation below and
here.
The I gene encodes for a glycosyltransferase
that modifies at the H antigen.
The glycosyltransferase encoded by IA adds an 'A'
sugar group to antigen H, the glycosyltransferase encoded by
IB adds a 'B' sugar group and i encodes an inactive
glycosyltransferase that leaves the H antigen...
ASAP please .. Hey, I need help answering these questions, about the introduction of an article...
ASAP please ..
Hey, I need help answering these questions, about the introduction
of an article about HIV inhibition using adenovirus-delivered
CRISPR/CAS9. Thaanks!!
strand, resulting in double-stranded breaks (DSBs) that trigger cellular repai mechanisms. In eukaryotes, the DSBs are more commonly repaired by the mechanism ot error prone non ho mologous end joining (NHEJ), therefore generating sequence changes, for instance insertions and deletians (indels), around the DSBs. Owing to the simplicity of manipulation and versati ity, the CRISPR/Cas9 system has been...
please answer All the multiple choice questions in the pic (all pics) i dont need a...
please answer All the multiple choice questions in the pic (all
pics) i dont need a explantion .
22 Using a bacteriophage to pass DNA rom bacterium to another O A) Transduction O B) Transformation C) Translocation O D) Translation 23. What research did Rosalind Franklin contribute to the elucidation of the double helix structure of DNA? O O O A) Principles of base pairing B) Biochemical data C) Bacterial transformation data D) X ray crystallography A segment of DNA...
I really don't understand number 3 for both questions please and Thanks you chup is called...
I really don't understand number 3 for both
questions
please and Thanks you
chup is called the bleeder's disease because the affected person's blood is unable to clot. nougn hemophiliacs do bleed externally after an iniury they also suffer from internal bleeding pa around joints. Hemorrhages can be checked with transfusions of fresh blood (or plasia U protein. The most common type of hemophilia is hemophilia A, due to the absence or minimal presence of a particular clotting factor called...
Overview The purpose of this activity is to help the students to understand how replication, tran...
TranslationOverview:The purpose of this activity is to help the students to understand how replication, transcription, and translation are connected. Students will use a sequence from a bacterial gene that confers resistance to antibiotics (carbapenems). They will be asked to apply the knowledge obtained in the class lecture to (1) find the promoter in the sequence, (2) determine the amino acid sequence of a fragment of the polypeptide, (3) "reverse translate" a fragment of the polypeptide, and (4) identify mutations in...
2. A dominant allele H reduces the number of body bristles that Drosophila flies have, giving...
2. A dominant allele H reduces the number of body bristles that Drosophila flies have, giving rise to a “hairless” phenotype. In the homozygous condition, H is lethal. An independently assorting dominant allele S has no effect on bristle number except in the presence of H, in which case a single dose of S suppresses the hairless phenotype, thus restoring the "hairy" phenotype. However, S also is lethal in the homozygous (S/S) condition. What ratio of hairy to hairless flies...
ABO BLOOD TYPE The ABO blood groups in humans are determined by multiple alleles. A single gene can exist in any of three allelic forms: 14, Bor i. This inheritance of the ABO blood type displays codominance as well as complete dominance. The two codominant genes A and B code for production of antigen A and antigen B on the surface of red blood cells, and are both completely dominant to the recessive allele i. The chart below shows the...
The ABO blood groups.There are three main alleles in the ABO blood group system -
IA, IB, and i. We've talked about the ABO
system in class, you can find a brief explanation below and
here.The I gene encodes for a glycosyltransferase
that modifies at the H antigen.The glycosyltransferase encoded by IA adds an 'A'
sugar group to antigen H, the glycosyltransferase encoded by
IB adds a 'B' sugar group and i encodes an inactive
glycosyltransferase that leaves the H...
There are three main alleles in the ABO blood group system -
IA, IB, and i. We've talked about the ABO
system in class, you can find a brief explanation below and
here.
The I gene encodes for a glycosyltransferase
that modifies at the H antigen.
The glycosyltransferase encoded by IA adds an 'A'
sugar group to antigen H, the glycosyltransferase encoded by
IB adds a 'B' sugar group and i encodes an inactive
glycosyltransferase that leaves the H antigen...
ASAP please ..
Hey, I need help answering these questions, about the introduction
of an article about HIV inhibition using adenovirus-delivered
CRISPR/CAS9. Thaanks!!
strand, resulting in double-stranded breaks (DSBs) that trigger cellular repai mechanisms. In eukaryotes, the DSBs are more commonly repaired by the mechanism ot error prone non ho mologous end joining (NHEJ), therefore generating sequence changes, for instance insertions and deletians (indels), around the DSBs. Owing to the simplicity of manipulation and versati ity, the CRISPR/Cas9 system has been...
please answer All the multiple choice questions in the pic (all
pics) i dont need a explantion .
22 Using a bacteriophage to pass DNA rom bacterium to another O A) Transduction O B) Transformation C) Translocation O D) Translation 23. What research did Rosalind Franklin contribute to the elucidation of the double helix structure of DNA? O O O A) Principles of base pairing B) Biochemical data C) Bacterial transformation data D) X ray crystallography A segment of DNA...
I really don't understand number 3 for both
questions
please and Thanks you
chup is called the bleeder's disease because the affected person's blood is unable to clot. nougn hemophiliacs do bleed externally after an iniury they also suffer from internal bleeding pa around joints. Hemorrhages can be checked with transfusions of fresh blood (or plasia U protein. The most common type of hemophilia is hemophilia A, due to the absence or minimal presence of a particular clotting factor called...
TranslationOverview:The purpose of this activity is to help the students to understand how replication, transcription, and translation are connected. Students will use a sequence from a bacterial gene that confers resistance to antibiotics (carbapenems). They will be asked to apply the knowledge obtained in the class lecture to (1) find the promoter in the sequence, (2) determine the amino acid sequence of a fragment of the polypeptide, (3) "reverse translate" a fragment of the polypeptide, and (4) identify mutations in...
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