A researcher is investigating compounds that modulate the cell cycle as possible chemotherapeutic agents against peripheral T-cell lymphoma. The researcher discovers a group of natural compounds with inhibitory activity against histone deacetylases, a class of enzymes that remove acetyl groups from the lysine residues of histones. A histone deacetylase inhibitor most likely causes which of the following?

Prevention of DNA strand reannealing

Increased heterochromatin formation

Suppression of gene transcription

A 17-year-old patient presents to the emergency department with left wrist pain after falling off of his bike and landing on his left hand. On physical exam the thenar eminence is red, swollen, and tender to palpation, so a radiograph is ordered. The patient is worried because he learned in biology class that radiography can cause cancer through damaging DNA but the physician reassures him that radiographs give a very minor dose of radiation. What is the most common mechanism by which ionizing radiation damages DNA?

Cyclobutane pyrimidine dimer formation

An investigator is comparing DNA replication in prokaryotes and eukaryotes. He finds that the entire genome of E. coli (4 × 106 base pairs) is replicated in approximately 30 minutes. A mammalian genome (3 × 109 base pairs) is usually replicated within 3 hours. Which of the following characteristics of eukaryotic DNA replication is the most accurate explanation for this finding?

Simultaneous replication at multiple origins

Replication inhibition at checkpoint

Absence of telomerase enzyme activity

More efficient DNA polymerase activity

Although nucleotide addition during DNA replication in prokaryotes proceeds approximately 20-times faster than in eukaryotes, why can much larger amounts of DNA be replicated in eukaryotes in a time-effective manner?

Eukaryotes have multiple origins of replication

Eukaryotes have helicase which can more easily unwind DNA strands

Eukaryotes have fewer polymerase types

Eukaryotes have less genetic material to replicate

Eukaryotes have a single, circular chromosome

An investigator is studying the biology of human sperm cells. She isolates spermatogonia obtained on a testicular biopsy from a group of healthy male volunteers. She finds that the DNA of spermatogonia obtained from these men show a large number of TTAGGG sequence repeats. This finding can best be explained by increased activity of an enzyme with which of the following functions?

Proofreading of synthesized daughter strands

Production of short RNA sequences

DNA structure and organization for USMLE Step 1: High-Yield Biochemistry Lessons

DNA Components - The Genetic Bricks

Core Components: The fundamental units of DNA.
- Deoxyribose Sugar: A pentose sugar lacking a 2'-OH group, providing stability.
- Phosphate Group: Creates a phosphodiester backbone; confers a negative charge.
- Nitrogenous Base: Encodes the genetic sequence.
Base Types:
- Purines (2 rings): Adenine (A), Guanine (G).
  - 📌 Mnemonic: PUre As Gold.
- Pyrimidines (1 ring): Cytosine (C), Thymine (T).
  - 📌 Mnemonic: CUT the PYe.
Assembly:
- Nucleoside: Base + Sugar
- Nucleotide: Base + Sugar + Phosphate (mono-, di-, or tri-)

⭐ Thymine (in DNA) is essentially methylated Uracil (in RNA). This small change significantly increases DNA's genetic stability.

Chemical structures of purine and pyrimidine nucleotides

Double Helix - The Twisted Ladder

A right-handed helix composed of two antiparallel polynucleotide chains.
- One strand runs 5' → 3'; the opposing strand runs 3' → 5'.
- The hydrophilic sugar-phosphate backbone faces the aqueous exterior.
- Hydrophobic nitrogenous bases are stacked inside.
Complementary Base Pairing (Chargaff's Rules):
- Adenine (A) forms 2 hydrogen bonds with Thymine (T).
- Guanine (G) forms 3 hydrogen bonds with Cytosine (C) (stronger bond).
- 📌 Mnemonic: Pure As Gold (Purines); Cut The Py (Pyrimidines).
The helical structure creates two distinct grooves:
- Major Groove: Wider, allows proteins to access bases.
- Minor Groove: Narrower.

⭐ B-DNA is the most common physiological form, a right-handed helix with approximately 10.5 base pairs per turn.

B-DNA double helix with major/minor grooves and base pairs

DNA Packaging - Chromatin & Coils

DNA coiling and chromosome condensation

Nucleosome: The fundamental unit of chromatin. Consists of a core histone octamer [2x(H2A, H2B, H3, H4)] wrapped by approximately 147 base pairs of DNA.
- Histones are rich in positively-charged amino acids (Lysine, Arginine), which bind to the negatively-charged DNA phosphate backbone.
H1 Histone: A linker histone that binds the nucleosome and the "linker DNA" segment, helping to compact nucleosomes into a more condensed fiber.
Chromatin Types:
- Euchromatin: Less condensed, appears lighter on EM. Transcriptionally active and accessible. 💡 Histone Acetylation makes DNA Active.
- Heterochromatin: Highly condensed, appears darker on EM. Transcriptionally inactive. 💡 Histone Methylation makes DNA Mute.

⭐ Barr bodies, which are inactive X chromosomes in females (Lyonization), are classic examples of facultative heterochromatin.

High‑Yield Points - ⚡ Biggest Takeaways

DNA is a right-handed double helix with antiparallel strands linked by phosphodiester bonds.

Purines (A, G) pair with pyrimidines (C, T). G-C pairs have 3 H-bonds (stronger) versus A-T pairs with 2 H-bonds.

DNA wraps around histone octamers to form nucleosomes, the fundamental unit of chromatin.

Euchromatin is transcriptionally active and accessible, while heterochromatin is highly condensed and inactive.

Telomeres protect chromosome ends; centromeres are crucial for segregation during cell division.

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