NEET-PG 2015 — Physiology

Q: Which of the following characteristics is shared by both active transport and facilitated diffusion?

Requires specific carrier proteins. ***Requires specific carrier proteins*** - Both **active transport** and **facilitated diffusion** rely on specific **transmembrane proteins** to move substances across the cell membrane. - These carrier proteins bind to the specific molecule they transport, undergoing conformational changes that facilitate its movement. *Does not require energy input* - This statement is only true for **facilitated diffusion**, which is a form of passive transport. - **Active transport** requires an input of **metabolic energy**, typically in the form of ATP, to move substances. *Transports solute down concentration gradient* - This is characteristic of **facilitated diffusion**, where molecules move from an area of higher concentration to an area of lower concentration. - **Active transport** moves solutes **against** their concentration gradient, requiring energy. *Transports solute against concentration gradient* - This is a defining feature of **active transport**, which allows cells to accumulate substances even when their external concentration is lower. - **Facilitated diffusion** moves solutes **down** their concentration gradient and cannot transport against a gradient. [Practice more Physiology PYQs on OnCourse]

Q: Through which of the following means of transport is folic acid absorbed in the proximal jejunum?

Both active and passive transport. ***Both active and passive transport*** - **Folic acid** absorption in the **proximal jejunum** occurs through **both active and passive mechanisms**. - At **low physiological concentrations**, an **active carrier-mediated transport** system is primarily responsible, while at **higher concentrations** (e.g., from supplements), **passive diffusion** also plays a significant role. *Facilitated diffusion* - While a type of passive transport, **facilitated diffusion** alone does not fully encompass the entirety of folic acid absorption, especially at low concentrations. - It relies on a **concentration gradient** and **carrier proteins** but does not require metabolic energy. *Active transport* - **Active transport** is crucial for absorbing folic acid when its concentration is low in the gut lumen. - This process requires **energy** and specific **carrier proteins**, like the **reduced folate carrier (RFC)**, to transport folate against a concentration gradient. *Passive transport* - **Passive transport**, specifically **simple diffusion**, contributes to folic acid absorption but primarily at **high lumen concentrations**, such as after taking large doses of supplements. - It occurs down a **concentration gradient** and does not require energy or specific carriers. [Practice more Physiology PYQs on OnCourse]

Q: Labour pain in uterus is carried by

Sympathetic nerves. ***Sympathetic nerves*** - Pain signals from the **uterus** during the first stage of labor (cervical dilation and uterine contractions) are transmitted via **visceral afferent fibers that accompany the sympathetic nerves** through the **hypogastric plexus**. - These fibers synapse in the **thoracolumbar spinal cord** at **T10-L1 segments**, leading to referred pain in these dermatomes. - The pathway is: Uterus → Uterine plexus → Superior hypogastric plexus → Sympathetic chain → T10-L1 dorsal roots. *Splanchnic nerve* - While visceral afferents do travel with splanchnic nerves in the thoracoabdominal region, for **uterine pain** specifically, the standard medical terminology refers to **sympathetic nerves** and the **hypogastric plexus** as the primary pathway. - Splanchnic nerves typically refer to thoracic sympathetic contributions (T5-T12) to upper abdominal viscera. *Pudendal nerve* - The **pudendal nerve (S2-S4)** primarily innervates the perineum, external genitalia, and pelvic floor structures. - It transmits pain during the **second stage of labor**, particularly with stretching of the perineum and vaginal distension, but **not from the uterus itself**. *Parasympathetic nerves* - **Parasympathetic innervation (S2-S4 via pelvic splanchnic nerves)** to the uterus influences motor function but does **not transmit nociceptive (pain) signals** during labor. - These nerves are involved in visceral reflexes and efferent control, not the primary afferent pain pathway. [Practice more Physiology PYQs on OnCourse]

Q: Which of the following is not a recognized stage of prophase I in meiosis?

Arachytene. ***Arachytene*** - **Arachytene** is not a recognized stage of prophase I in meiosis. - The correct stages are leptotene, zygotene, pachytene, diplotene, and diakinesis. *Diakinesis* - **Diakinesis** is the final stage of prophase I, where homologous chromosomes condense further, and the nuclear envelope begins to break down. - Chiasmata terminalize, and the bivalents are ready for metaphase I. *Leptotene* - **Leptotene** is the first stage of prophase I, characterized by the condensation of chromatin into visible chromosomes. - Chromosomes appear as long, thin threads. *Zygotene* - **Zygotene** is the second stage of prophase I, where homologous chromosomes pair up in a process called **synapsis**, forming bivalents. - The synaptonemal complex begins to form between homologous chromosomes. [Practice more Physiology PYQs on OnCourse]

Q: In a patient experiencing a stress response, which structure acts as the major central coordinator of the sympathetic nervous system?

Hypothalamus. ***Hypothalamus*** - The **hypothalamus** is the primary subcortical region that integrates stress responses by coordinating the **autonomic nervous system** and the **endocrine system**. - It directly regulates the **sympathetic nervous system** activation during stress through its projections to lower brainstem and spinal cord centers. *Nucleus ambiguus* - This nucleus is primarily involved in the motor control of the **pharynx, larynx, and esophagus**, as well as controlling the **parasympathetic innervation of the heart**. - While part of the autonomic system, it is not the major central coordinator of the sympathetic stress response. *Nucleus tractus solitarius* - The **nucleus tractus solitarius (NTS)** receives visceral sensory input from cranial nerves (e.g., vagus nerve) and plays a role in cardiovascular and respiratory reflexes. - It influences the autonomic nervous system but acts as a relay and integration center for specific reflexes rather than the overall central coordinator of the stress response. *Edinger-Westphal nucleus* - The **Edinger-Westphal nucleus** is a preganglionic parasympathetic nucleus that controls the **pupillary light reflex** and **accommodation (lens focusing)**. - Its function is related to the parasympathetic division but not as the central coordinator of the systemic sympathetic stress response. [Practice more Physiology PYQs on OnCourse]

119 Previous Year Questions with Answers & Explanations

119

Questions

Which of the following characteristics is shared by both active transport and facilitated diffusion?

Through which of the following means of transport is folic acid absorbed in the proximal jejunum?

Labour pain in uterus is carried by

Which of the following is not a recognized stage of prophase I in meiosis?

In a patient experiencing a stress response, which structure acts as the major central coordinator of the sympathetic nervous system?

Spermatogenesis begins at -

Stapedius pulls stapes in which direction?

Which of the following statements about ENaC is incorrect?

What is the composition of epithelial sodium channels?

Q10

What is the process of passive transport of molecules through protein pores/channels in the cell membrane?

NEET-PG 2015 - Physiology NEET-PG Practice Questions and MCQs

Question 1: Which of the following characteristics is shared by both active transport and facilitated diffusion?

A. Does not require energy input
B. Transports solute down concentration gradient
C. Transports solute against concentration gradient
D. Requires specific carrier proteins (Correct Answer)

Explanation: ***Requires specific carrier proteins*** - Both **active transport** and **facilitated diffusion** rely on specific **transmembrane proteins** to move substances across the cell membrane. - These carrier proteins bind to the specific molecule they transport, undergoing conformational changes that facilitate its movement. *Does not require energy input* - This statement is only true for **facilitated diffusion**, which is a form of passive transport. - **Active transport** requires an input of **metabolic energy**, typically in the form of ATP, to move substances. *Transports solute down concentration gradient* - This is characteristic of **facilitated diffusion**, where molecules move from an area of higher concentration to an area of lower concentration. - **Active transport** moves solutes **against** their concentration gradient, requiring energy. *Transports solute against concentration gradient* - This is a defining feature of **active transport**, which allows cells to accumulate substances even when their external concentration is lower. - **Facilitated diffusion** moves solutes **down** their concentration gradient and cannot transport against a gradient.

Question 2: Through which of the following means of transport is folic acid absorbed in the proximal jejunum?

A. Facilitated diffusion
B. Both active and passive transport (Correct Answer)
C. Active transport
D. Passive transport

Explanation: ***Both active and passive transport*** - **Folic acid** absorption in the **proximal jejunum** occurs through **both active and passive mechanisms**. - At **low physiological concentrations**, an **active carrier-mediated transport** system is primarily responsible, while at **higher concentrations** (e.g., from supplements), **passive diffusion** also plays a significant role. *Facilitated diffusion* - While a type of passive transport, **facilitated diffusion** alone does not fully encompass the entirety of folic acid absorption, especially at low concentrations. - It relies on a **concentration gradient** and **carrier proteins** but does not require metabolic energy. *Active transport* - **Active transport** is crucial for absorbing folic acid when its concentration is low in the gut lumen. - This process requires **energy** and specific **carrier proteins**, like the **reduced folate carrier (RFC)**, to transport folate against a concentration gradient. *Passive transport* - **Passive transport**, specifically **simple diffusion**, contributes to folic acid absorption but primarily at **high lumen concentrations**, such as after taking large doses of supplements. - It occurs down a **concentration gradient** and does not require energy or specific carriers.

Question 3: Labour pain in uterus is carried by

A. Sympathetic nerves (Correct Answer)
B. Pudendal nerve
C. Parasympathetic nerves
D. Splanchnic nerve

Explanation: ***Sympathetic nerves*** - Pain signals from the **uterus** during the first stage of labor (cervical dilation and uterine contractions) are transmitted via **visceral afferent fibers that accompany the sympathetic nerves** through the **hypogastric plexus**. - These fibers synapse in the **thoracolumbar spinal cord** at **T10-L1 segments**, leading to referred pain in these dermatomes. - The pathway is: Uterus → Uterine plexus → Superior hypogastric plexus → Sympathetic chain → T10-L1 dorsal roots. *Splanchnic nerve* - While visceral afferents do travel with splanchnic nerves in the thoracoabdominal region, for **uterine pain** specifically, the standard medical terminology refers to **sympathetic nerves** and the **hypogastric plexus** as the primary pathway. - Splanchnic nerves typically refer to thoracic sympathetic contributions (T5-T12) to upper abdominal viscera. *Pudendal nerve* - The **pudendal nerve (S2-S4)** primarily innervates the perineum, external genitalia, and pelvic floor structures. - It transmits pain during the **second stage of labor**, particularly with stretching of the perineum and vaginal distension, but **not from the uterus itself**. *Parasympathetic nerves* - **Parasympathetic innervation (S2-S4 via pelvic splanchnic nerves)** to the uterus influences motor function but does **not transmit nociceptive (pain) signals** during labor. - These nerves are involved in visceral reflexes and efferent control, not the primary afferent pain pathway.

Question 4: Which of the following is not a recognized stage of prophase I in meiosis?

A. Diakinesis
B. Leptotene
C. Zygotene
D. Arachytene (Correct Answer)

Explanation: ***Arachytene*** - **Arachytene** is not a recognized stage of prophase I in meiosis. - The correct stages are leptotene, zygotene, pachytene, diplotene, and diakinesis. *Diakinesis* - **Diakinesis** is the final stage of prophase I, where homologous chromosomes condense further, and the nuclear envelope begins to break down. - Chiasmata terminalize, and the bivalents are ready for metaphase I. *Leptotene* - **Leptotene** is the first stage of prophase I, characterized by the condensation of chromatin into visible chromosomes. - Chromosomes appear as long, thin threads. *Zygotene* - **Zygotene** is the second stage of prophase I, where homologous chromosomes pair up in a process called **synapsis**, forming bivalents. - The synaptonemal complex begins to form between homologous chromosomes.

Question 5: In a patient experiencing a stress response, which structure acts as the major central coordinator of the sympathetic nervous system?

A. Nucleus ambiguus
B. Nucleus tractus solitarius
C. Edinger-Westphal nucleus
D. Hypothalamus (Correct Answer)

Explanation: ***Hypothalamus*** - The **hypothalamus** is the primary subcortical region that integrates stress responses by coordinating the **autonomic nervous system** and the **endocrine system**. - It directly regulates the **sympathetic nervous system** activation during stress through its projections to lower brainstem and spinal cord centers. *Nucleus ambiguus* - This nucleus is primarily involved in the motor control of the **pharynx, larynx, and esophagus**, as well as controlling the **parasympathetic innervation of the heart**. - While part of the autonomic system, it is not the major central coordinator of the sympathetic stress response. *Nucleus tractus solitarius* - The **nucleus tractus solitarius (NTS)** receives visceral sensory input from cranial nerves (e.g., vagus nerve) and plays a role in cardiovascular and respiratory reflexes. - It influences the autonomic nervous system but acts as a relay and integration center for specific reflexes rather than the overall central coordinator of the stress response. *Edinger-Westphal nucleus* - The **Edinger-Westphal nucleus** is a preganglionic parasympathetic nucleus that controls the **pupillary light reflex** and **accommodation (lens focusing)**. - Its function is related to the parasympathetic division but not as the central coordinator of the systemic sympathetic stress response.

Question 6: Spermatogenesis begins at -

A. Birth
B. 5 years
C. Puberty (Correct Answer)
D. 18 years

Explanation: ***Puberty*** - **Spermatogenesis**, the process of sperm production, is initiated and sustained by the surge of **gonadotropin-releasing hormone (GnRH)**, which begins at puberty. - This hormonal signal leads to the secretion of **luteinizing hormone (LH)** and **follicle-stimulating hormone (FSH)**, crucial for testicular function and sperm development. *Birth* - At birth, the male testes contain **spermatogonia**, but these cells remain dormant and do not begin active sperm production. - Hormonal levels at birth are not conducive to initiating spermatogenesis. *5 years* - While some hormonal changes occur in early childhood, they are not sufficient to trigger the full process of spermatogenesis. - The reproductive system is still in a quiescent state before puberty. *18 years* - By 18 years, spermatogenesis is typically well-established and has been ongoing for several years, having started at puberty. - This age marks a period of full reproductive maturity, not the initiation of sperm production.

Question 7: Stapedius pulls stapes in which direction?

A. Anterior
B. Superior
C. Inferior
D. Posterior (Correct Answer)

Explanation: ***Posterior*** - The **stapedius muscle** attaches to the **posterior surface of the stapes neck**. - Contraction of the stapedius muscle pulls the stapes **posteriorly and laterally** (posterolaterally), tilting the footplate away from the oval window and reducing sound transmission. - This action dampens excessive vibrations and protects the inner ear from loud sounds as part of the **acoustic reflex**. *Anterior* - Pulling the stapes anteriorly would push the footplate further into the **oval window**, which would increase sound transmission rather than dampen it. - No muscle pulls the stapes anteriorly in the context of the **acoustic reflex**. *Superior* - The stapedius muscle's action is primarily along the **posterolateral axis**, not superiorly. - Pulling superiorly would not effectively dampen sound vibrations or protect the inner ear from acoustic trauma. *Inferior* - The anatomy and function of the stapedius muscle do not support an inferior pulling action. - The stapedius acts to stabilize and retract the stapes **posterolaterally**, not inferiorly.

Question 8: Which of the following statements about ENaC is incorrect?

A. Present in kidney and GIT
B. Epithelial channel
C. Inhibited by amiloride
D. Composed of 2 homologous subunits (Correct Answer)

Explanation: ***Composed of 2 homologous subunits*** - ENaC (Epithelial Sodium Channel) is a **heterotrimeric complex** composed of **three distinct subunits**: α, β, and γ. - The functional channel typically has a stoichiometry of 2α:1β:1γ, forming a heterotrimer. - These subunits share sequence homology but are **non-identical proteins**, not just two homologous subunits. - A fourth related subunit (δ) exists and can substitute for α in some tissues, but the classical ENaC is a three-subunit channel. *Epithelial channel* - ENaC is indeed an **epithelial channel** responsible for critical **sodium reabsorption** in various epithelia. - It plays a vital role in regulating **fluid and electrolyte balance** across tight epithelial layers. *Present in kidney and GIT* - ENaC is abundantly expressed in the **distal nephron of the kidney**, specifically in the collecting duct, where it mediates fine-tuning of sodium reabsorption. - It is also present in the **lower gastrointestinal tract (colon)**, contributing to sodium absorption, and in the airways and salivary glands. *Inhibited by amiloride* - **Amiloride** is a well-known **potassium-sparing diuretic** that specifically acts by blocking ENaC. - This inhibition reduces sodium reabsorption and, consequently, water reabsorption, leading to increased diuresis.

Question 9: What is the composition of epithelial sodium channels?

A. 2α, 1β, 1γ
B. 1α, 1β, 1γ (Correct Answer)
C. 2α, 1β
D. 2α, 1β, 2γ

Explanation: ***1α, 1β, 1γ*** - Epithelial sodium channels (**ENaCs**) are heterotrimeric complexes composed of one **alpha (α)**, one **beta (β)**, and one **gamma (γ) subunit**. - This specific subunit composition is essential for the channel's proper function in **sodium reabsorption** across epithelial tissues. *2α, 1β* - This composition is incomplete as it lacks the **gamma (γ) subunit**, which is a crucial component of the functional ENaC. - While alpha and beta subunits are present, the absence of the gamma subunit would impair the channel's ability to efficiently transport sodium. *2α, 1β, 2γ* - This composition is incorrect because a functional ENaC typically includes only **one gamma (γ) subunit**, not two. - An imbalance in subunit stoichiometry can lead to misfolding or improper assembly, affecting channel function. *2α, 1β, 1γ* - This combination correctly includes all three types of subunits (alpha, beta, gamma) but incorrectly states there are **two alpha (α) subunits**. - A functional ENaC has a single alpha subunit, making this option incorrect.

Question 10: What is the process of passive transport of molecules through protein pores/channels in the cell membrane?

A. Transcytosis
B. Diffusion (Correct Answer)
C. Endocytosis
D. Active transport

Explanation: ***Diffusion*** - **Diffusion** is the net movement of particles from an area of higher concentration to an area of lower concentration without requiring energy. - When diffusion occurs through **protein channels or pores** in the cell membrane, it is specifically termed **facilitated diffusion** or **channel-mediated diffusion**. - This remains a form of **passive transport** as it moves substances down their concentration gradient without ATP expenditure. - Examples include ion channels (Na⁺, K⁺, Ca²⁺) and aquaporins for water transport. *Active transport* - **Active transport** requires energy (typically ATP) to move substances **against** their concentration gradient. - It involves carrier proteins (pumps) like Na⁺-K⁺ ATPase that undergo conformational changes. - This is fundamentally different from passive transport through pores. *Transcytosis* - **Transcytosis** is a vesicular transport mechanism for moving substances across an entire cell. - It combines **endocytosis** on one side and **exocytosis** on the other side. - This is not passive transport through pores but rather bulk transport. *Endocytosis* - **Endocytosis** involves engulfing extracellular substances by forming membrane-bound vesicles. - Types include phagocytosis, pinocytosis, and receptor-mediated endocytosis. - This requires energy and does not involve transport through pores.