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BCH5413 - Exam 1 with Actual Complete Questions and Correct Detailed Answer with Rationales Already Graded A+ | 2026/2027 Updated

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BCH5413 - Exam 1 with Actual Complete Questions and Correct Detailed Answer with Rationales Already Graded A+ | 2026/2027 Updated

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BCH5413
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BCH5413

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BCH5413 - Exam 1 with Actual Complete Questions and
Correct Detailed Answer with Rationales Already Graded A+ |
2026/2027 Updated



DNA structure - ANSWER-- nucleic acid bases (purine (A,G) and pyrimidine (C,U,T))

- sugars (ribose, deoxyribose)

- sugars linked by phosphate groups (sugar-phosphate backbone)



*Form antiparallel strands



In mammalian DNA, which base has various forms - ANSWER-cytosine



Chargaff's rule - ANSWER-A=T and C=G



Is DNA conservative or semi-conservative? - ANSWER-semi-conservative

- parental sequence and daughter strand bind together



Alternative Double stranded DNA conformation

- A and Z DNA - ANSWER-A DNA

- dehydrated form

- right handed helix

- 11 bp per helical

- bp tilted 19 degrees

- major groove narrow and deep

,- found with dsRNA and RNA-DNA duplex



z-DNA

- >1% of cellular DNA

- favored by G-C repeats and alternating purines-pyrimidines

- left handed helix

- 12 bp per turn

- bp tilted 9 degrees

- major groove flattened, nearly gone

- bound by poxvirus E3L virulence factor and down regulates apoptosis genes



Non-duplex DNA structures

- cruciform DNA - ANSWER-- inverted repeat sequence

- favored by excessive negative supercoiling

- AT-rich cruciforms associated with 'fragile' DNA



Alternative modes of base pairing - ANSWER-Watson Crick:

A--T and C---G

- adenine is at anti-conformation



Hoogsteen:

- adenine or guanine can be flipped to sin-conformation (different H-bonding)



Hoogsteen base pairing

- when can it occur - ANSWER-- in triplex and quadruplex DNA structures

,Triplex DNA - ANSWER-- pyrimidine rich strand

- negative supercoiling



Chair DNA - ANSWER-- two G-rich strands

- down regulation of c-myc transcription



Intrinsic Bends in DNA - ANSWER-- distortion of the ideal B-DNA conformation resulting from
base stacking in the nucleotide sequence

Eg. Adenine-tract DNA results in 20 degree bends



- also can be found in duplex-oligonucleotide model DNA

- causes 23 degree bend and mis-stacking of one GC

- DNA is not a uniform structure



Does B-DNA have a perfect structure? - ANSWER-No

- sequence specific local variation in twist between paired bases, sugat conformation, tilt of
base pairs, rise distance, etc.



Supercoiled DNA

- negative v. positive - ANSWER-- left handed under-twisted DNA is in a negative supercoil



- right handed over-twisted DNA is in a positive supercoil



*most is negatively supercoiled (topoisomerase releaves supercoiling)



Denaturation/Melting of DNA - ANSWER-- separation of DNA strands

, - can happen due to temp, salt concentration, G---C content, and length of DNA
(Hyperchromicity effect)

- as temp increases, absorption of light increases due to bases becoming less shielded when
they melt apart



The (greater/lower) the G+C content and the (higher/lower) the salt, the more stable the DNA
duplex - ANSWER-greater G+C and higher salt



What are higher stringency conditions - ANSWER-high heat and low salt



What else can melt DNA? - ANSWER-pH



DNA renaturing and hybridization - ANSWER-- add complementary RNA and re-anneal by
gradually lowering temp.



Where are chemical groups present in the DNA - ANSWER-major and minor groove



How do sequence specific DNA binding proteins bind in a sequence specific manner - ANSWER-
the amino acids of sequence specific DNA binding proteins recognize the pattern of chemical
groups in the major/minor groove

- may interact through different bonding to permit sequence specific recognition



Zinc finger binding proteins - ANSWER-- custom designed DNA binding proteins

- two beta sheets attached to an alpha helix coordinate by a zinc molecule

- triple zinc finger can bind in the major groove of DNA



Zinc finger custom design - ANSWER-swapping the alpha helix domain and beta-hairpin
segments allows for different sequence specificity

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Institución
BCH5413
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BCH5413

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Subido en
1 de junio de 2026
Número de páginas
85
Escrito en
2025/2026
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Examen
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