Pyridoxine deficiency leads to altered metabolism of?
The Shine-Dalgarno sequence is primarily associated with which biological process?
What is the primary function of a primer in DNA replication?
In which stage of cell division is chromosomal study best carried out?
Who invented the technique for identifying individuals by their DNA?
Acute intermittent porphyria is due to deficiency of?
What is the primary metal ion found in myoglobin?
Which of the following is a tripeptide?
Which of the following is the shortest peptide?
Where does omega oxidation of fatty acids occur?
NEET-PG 2012 - Biochemistry NEET-PG Practice Questions and MCQs
Question 161: Pyridoxine deficiency leads to altered metabolism of?
- A. Phenylalanine
- B. Methionine
- C. Tyrosine
- D. Tryptophan (Correct Answer)
Explanation: ***Tryptophan*** - **Pyridoxine (vitamin B6)** is a critical coenzyme in the metabolism of **tryptophan**, particularly in its conversion to **niacin** and serotonin. - A deficiency leads to an accumulation of abnormal tryptophan metabolites, such as **xanthurenic acid**, which can be excreted in the urine. *Phenylalanine* - The metabolism of phenylalanine involves its conversion to tyrosine, a process catalyzed by **phenylalanine hydroxylase**, which does not directly require pyridoxine. - Deficiencies in phenylalanine metabolism often point to issues like **phenylketonuria**. *Methionine* - Methionine metabolism involves a cycle that generates **S-adenosylmethionine (SAM)** and then homocysteine. - While vitamin B6 is involved in the transsulfuration pathway (converting homocysteine to cysteine), its primary direct impact on methionine metabolism itself is less pronounced than on tryptophan. *Tyrosine* - Tyrosine is synthesized from phenylalanine and is a precursor for **catecholamines** and thyroid hormones. - Its metabolism does not directly rely on pyridoxine as a coenzyme in the main initial steps.
Question 162: The Shine-Dalgarno sequence is primarily associated with which biological process?
- A. Transcription
- B. Translation (Correct Answer)
- C. DNA replication
- D. RNA splicing
Explanation: ***Translation*** - The **Shine-Dalgarno sequence** is a **ribosome-binding site** in prokaryotic messenger RNA (mRNA) that helps recruit the ribosome to the mRNA to initiate protein synthesis. - Its interaction with the **16S rRNA** of the small ribosomal subunit positions the start codon (AUG) correctly for **translation initiation**. - This sequence is located approximately **8 base pairs upstream** of the start codon in bacterial mRNA. *Transcription* - **Transcription** is the process of synthesizing RNA from a DNA template. - It involves elements like **promoters** and **enhancers**, not the Shine-Dalgarno sequence. *DNA replication* - **DNA replication** is the process by which DNA makes a copy of itself. - This process involves origins of replication, helicases, and DNA polymerases, with no role for the Shine-Dalgarno sequence. *RNA splicing* - **RNA splicing** is a eukaryotic process that removes introns from pre-mRNA. - The Shine-Dalgarno sequence is found in **prokaryotes**, which lack splicing machinery and introns.
Question 163: What is the primary function of a primer in DNA replication?
- A. Transcription
- B. Translation
- C. Initiation of DNA replication (Correct Answer)
- D. Termination of DNA replication
Explanation: ***Initiation of DNA replication*** - DNA polymerase cannot synthesize new DNA strands de novo; it requires a pre-existing 3'-hydroxyl group to begin adding nucleotides. - The **primer**, a short RNA sequence, provides this necessary **3'-hydroxyl group**, allowing DNA polymerase to start synthesizing the new DNA strand. *Transcription* - This process involves synthesizing **RNA from a DNA template**, primarily carried out by **RNA polymerase**. - While primers are involved in DNA synthesis, they do not directly initiate the process of transcription. *Translation* - **Translation** is the process of synthesizing **proteins from mRNA templates** using ribosomes, tRNA, and amino acids. - This process is distinct from DNA synthesis and does not involve primers; its initiation involves start codons and ribosomal subunits. *Termination of DNA replication* - **Termination of DNA replication** occurs when replication forks meet or at specific termination sequences, often with the involvement of specialized proteins. - Primers are involved in the *start* of replication, not its conclusion.
Question 164: In which stage of cell division is chromosomal study best carried out?
- A. Metaphase (Correct Answer)
- B. Telophase
- C. Anaphase
- D. Prophase
Explanation: ***Metaphase*** - During **metaphase**, chromosomes are maximally condensed and align at the cell's equatorial plate, making them easily visible and distinguishable under a microscope. - This arrangement allows for clear visualization of **chromosome number**, **size**, and **morphology**, which is crucial for genetic analysis. *Prophase* - In **prophase**, chromosomes begin to condense, but they are still diffuse and not fully compact, making detailed study difficult. - The nuclear envelope is also still present for most of prophase, obstructing a clear view of the chromosomes. *Telophase* - During **telophase**, chromosomes decondense and arrive at opposite poles, becoming less distinct and harder to analyze individually. - New nuclear envelopes form around the separated chromosomes, further obscuring their view for detailed study. *Anaphase* - In **anaphase**, sister chromatids separate and move towards opposite poles, but they are in motion and not aligned, making them difficult to capture and analyze individually. - The separated chromatids are also stretched and elongated, which makes their morphological assessment challenging.
Question 165: Who invented the technique for identifying individuals by their DNA?
- A. Shapiro
- B. Lewis
- C. Jeffreys (Correct Answer)
- D. Pasteur
Explanation: ***Jeffreys*** - **Alec Jeffreys** developed the technique of **DNA fingerprinting** in 1984, which revolutionized forensic science and paternity testing. - His method involved analyzing **variable number tandem repeats (VNTRs)** in DNA to create a unique profile for each individual. *Shapiro* - **Robert Shapiro** is a legal figure, famously associated with the O. J. Simpson murder trial, not directly with the invention of DNA identification techniques. - While he was involved in cases where DNA evidence was used, he did not contribute to its scientific development. *Lewis* - **Edward B. Lewis** was a Nobel Prize-winning geneticist known for his work on **developmental genetics** in *Drosophila melanogaster*, not for DNA identification techniques. - His research focused on gene clusters and their role in embryonic development. *Pasteur* - **Louis Pasteur** was a pioneering microbiologist and chemist, famous for his discoveries related to **vaccination**, microbial fermentation, and pasteurization. - His work predates the discovery and application of DNA for individual identification by over a century.
Question 166: Acute intermittent porphyria is due to deficiency of?
- A. Porphobilinogen deaminase (Correct Answer)
- B. Uroporphyrinogen III synthase
- C. Ferrochelatase
- D. ALA synthase
Explanation: ***Porphobilinogen deaminase*** - **Acute intermittent porphyria (AIP)** results from a deficiency in **porphobilinogen deaminase** (also known as hydroxymethylbilane synthase). - This enzyme deficiency leads to the accumulation of **aminolevulinic acid (ALA)** and **porphobilinogen (PBG)**, which are neurotoxic and cause the characteristic symptoms of AIP. *Uroporphyrinogen III synthase* - A deficiency in **uroporphyrinogen III synthase** causes **congenital erythropoietic porphyria (Günther disease)**, which is characterized by severe photosensitivity and hemolytic anemia. - This enzyme defect leads to the accumulation of uroporphyrinogen I and coproporphyrinogen I, not the ALA and PBG associated with AIP. *Ferrochelatase* - Deficiency in **ferrochelatase** causes **erythropoietic protoporphyria (EPP)**, which presents with photosensitivity and chronic liver disease due to the accumulation of **protoporphyrin**. - This condition does not cause the acute neurological attacks seen in AIP. *ALA synthase* - **ALA synthase** is the **rate-limiting enzyme** in heme synthesis; while its activity is crucial, a congenital *deficiency* is not the cause of AIP. - Instead, the *upregulation* of ALA synthase activity in AIP (due to the PBG deaminase block) contributes to the accumulation of ALA and PBG.
Question 167: What is the primary metal ion found in myoglobin?
- A. Iron (Correct Answer)
- B. Copper
- C. Selenium
- D. Zinc
Explanation: ***Iron*** - **Iron** is the central metal ion in the **heme group** of myoglobin. - It is responsible for **binding oxygen** reversibly, which is myoglobin's primary function in muscle tissue. *Copper* - **Copper** is a component of several enzymes, such as **cytochrome c oxidase** and **superoxide dismutase**, but not myoglobin. - It plays a role in **electron transport** and connective tissue formation. *Selenium* - **Selenium** is an essential trace element that functions as a component of **glutathione peroxidase**, an antioxidant enzyme. - It is not found in the structure of myoglobin. *Zinc* - **Zinc** is a critical component of many enzymes, including **carbonic anhydrase** and **DNA polymerase**. - It is involved in **immune function** and wound healing, but not in oxygen transport by myoglobin.
Question 168: Which of the following is a tripeptide?
- A. Glutathione (Correct Answer)
- B. Angiotensin
- C. Glucagon
- D. Oxytocin
Explanation: ***Glutathione*** - **Glutathione** is a tripeptide composed of three amino acids: **glutamate**, **cysteine**, and **glycine**. - It plays a crucial role as an **antioxidant** in the body, protecting cells from damage by **free radicals**. *Angiotensin* - **Angiotensin** is a peptide hormone that causes **vasoconstriction** and an increase in **blood pressure**. - It is an **oligopeptide** (typically 8-10 amino acids) rather than a tripeptide. *Glucagon* - **Glucagon** is a peptide hormone produced by the **alpha cells** of the pancreas that raises **blood glucose levels**. - It is a **29-amino acid** polypeptide, much larger than a tripeptide. *Oxytocin* - **Oxytocin** is a hormone involved in social bonding and sexual reproduction, best known for its role in **childbirth** and **lactation**. - It is a **nonapeptide**, meaning it consists of nine amino acids.
Question 169: Which of the following is the shortest peptide?
- A. Oxytocin
- B. Vasopressin
- C. Angiotensin III (Correct Answer)
- D. Angiotensin II
Explanation: ***Angiotensin III*** - **Angiotensin III** is a **heptapeptide**, meaning it consists of **7 amino acids**. - It is formed by the removal of the N-terminal aspartate from Angiotensin II (8 amino acids), making it the shortest peptide among the options. - It has similar but weaker actions compared to Angiotensin II in regulating blood pressure and aldosterone secretion. *Oxytocin* - **Oxytocin** is a **nonapeptide**, composed of **9 amino acids**. - It plays a role in uterine contractions during labor and milk ejection during lactation. *Vasopressin* - **Vasopressin**, also known as **antidiuretic hormone (ADH)**, is a **nonapeptide** (**9 amino acids**). - Its primary functions are water reabsorption in the kidneys and vasoconstriction. *Angiotensin II* - **Angiotensin II** is an **octapeptide**, containing **8 amino acids**. - It is a potent vasoconstrictor and stimulates aldosterone secretion, playing a key role in blood pressure regulation.
Question 170: Where does omega oxidation of fatty acids occur?
- A. Endoplasmic Reticulum (Correct Answer)
- B. Cytosol
- C. Mitochondria
- D. None of the options
Explanation: ***Endoplasmic Reticulum*** - **Omega oxidation** of fatty acids occurs in the **endoplasmic reticulum (microsomes)** of liver and kidney cells. - This pathway involves **hydroxylation of the terminal omega carbon** by **cytochrome P450 enzymes** located in the smooth ER. - The omega carbon is then oxidized to a **carboxyl group**, forming a **dicarboxylic acid**. - This is a **minor pathway** that becomes important when **beta-oxidation is impaired** or for metabolism of **medium-chain fatty acids**. *Cytosol* - The cytosol is involved in **fatty acid synthesis**, not omega oxidation. - While some later steps of fatty acid metabolism occur in the cytosol, the initial hydroxylation step of omega oxidation requires ER-localized cytochrome P450 enzymes. *Mitochondria* - **Mitochondria** are the primary site for **beta-oxidation** of fatty acids, not omega oxidation. - Beta-oxidation sequentially removes **two-carbon units from the carboxyl end**, which is distinct from omega oxidation. - The dicarboxylic acids produced by omega oxidation may subsequently undergo beta-oxidation in mitochondria. *None of the options* - This option is incorrect because the endoplasmic reticulum is the correct cellular location for omega oxidation. - The ER contains the necessary cytochrome P450 enzymes for the hydroxylation reaction that initiates this pathway.