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MIMG C185A Final Exam | Questions and Answers | 2025 Revised Update | 100% Correct - UCLA

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MIMG C185A Final Exam | Questions and Answers | 2025 Revised Update | 100% Correct - UCLA

Institution
BIOL 1322 Nutrition
Course
BIOL 1322 Nutrition

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MIMG C185A Final Exam | Questions and
Answers | 2025 Revised Update | 100%
Correct - UCLA




SECTION 1: MHC STRUCTURE AND GENETICS



1. An inbred (syngeneic) strain of mice (UCLA mice) has the following MHC locus
organization: K, I-Aα, I-Aβ, I-Eα, I-Eβ, D, L, L. How many different types of MHC I
molecules will these mice express on the surface of their antigen-presenting cells
(APCs)?

 A) 2
 B) 4
 C) 6
 D) 8
 E) 9




Correct Answer: D

Rationale: The MHC locus shows 9 genes total: K, I-Aα, I-Aβ, I-Eα, I-Eβ, D, L, L. The L gene
is duplicated. Since the mice are inbred, both maternal and paternal MHC I genes are

, identical. However, the duplicated L gene produces two identical proteins that are not
distinct, so only 8 different MHC I molecules are expressed .




2. For the same inbred UCLA mice described above, how many different types of
MHC II molecules will be expressed on the surface of APCs?

 A) 0
 B) 2
 C) 3
 D) 4
 E) 6




Correct Answer: A

Rationale: The alpha and beta chains available cannot recombine with each other. I-Aα is
only compatible with I-Aβ, and I-Eβ is only compatible with I-Eα. These mice lack I-Eα
entirely, so no functional MHC II complexes can form .




3. Westwood mice are genetically manipulated and cannot produce TAP1 and
TAP2 proteins in any of their cells. What type of microorganisms will these animals
be susceptible to?

 A) Extracellular bacteria only
 B) Extracellular parasites only
 C) Intracellular pathogens (viruses, intracellular bacteria)
 D) Both extracellular and intracellular pathogens
 E) None, they have normal immunity




Correct Answer: C

, Rationale: TAP1/TAP2 are required for transporting peptides from the cytosol into the
endoplasmic reticulum for loading onto MHC I molecules. Without TAP function, MHC I
cannot present endogenous antigens (viral or intracellular bacterial peptides) to CD8+ T
cells. Therefore, these mice are susceptible to intracellular pathogens .




4. The hybrid offspring between UCLA mice (no MHC II) and Westwood mice (no
TAP) will be able to:

 A) Present antigen on MHC I only
 B) Present antigen on MHC II only
 C) Present antigen on both MHC I and MHC II
 D) Not present antigen on either




Correct Answer: C

Rationale: The hybrid mice have functional MHC I (from UCLA inheritance of TAP genes)
and functional MHC II (from Westwood inheritance of MHC II genes). Both CD4+ and
CD8+ T cells can perform their immune functions .




5. You have two different male mice: Mouse 1 is homozygous for the k haplotype
(Dk, Lk, Kk, IAk, IEk). You mate Mouse 1 to a female (Mouse 3) that is H-2s
(homozygous for s haplotype). You take skin from a progeny and graft it onto
Mouse 1. Will the graft be rejected?

 A) No, because the progeny is a close relative
 B) Yes, because Mouse 1 lacks the s haplotype
 C) No, because all MHC genes are identical
 D) Yes, because of blood type incompatibility

, Correct Answer: B

Rationale: The progeny of Mouse 1 (kk) and Mouse 3 (ss) will be heterozygous (k/s) for the
MHC haplotypes. Mouse 1 is homozygous for the k haplotype and does not express any s
haplotype MHC molecules. The graft will be recognized as foreign and rejected .




6. In the same experiment, you graft the skin from the k/s heterozygous progeny
onto one of its siblings. Will the graft be rejected?

 A) Yes, because the sibling may have different MHC
 B) No, because all siblings share the same k/s haplotype
 C) Yes, because of minor histocompatibility antigens
 D) No, because the graft is from an offspring




Correct Answer: B

Rationale: When both parents are homozygous for different haplotypes (k and s), all F1
offspring are identical heterozygotes (k/s). All siblings will share exactly the same MHC
haplotypes. The graft will be recognized as "self" and will not be rejected .




7. Which fluorescence channel is typically used to detect MHC I expression in flow
cytometry?

 A) Forward scatter (FSC)
 B) Side scatter (SSC)
 C) FITC (green fluorescence)
 D) PE (red fluorescence)




Correct Answer: C

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BIOL 1322 Nutrition

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