Biology Archives

201. Hemocyanin is an oxygen-transport metalloprotein present in some inver

Hemocyanin is an oxygen-transport metalloprotein present in some invertebrate animals. This protein contains :

[amp_mcq option1=”one copper atom” option2=”two copper atoms” option3=”one iron atom” option4=”one magnesium atom” correct=”option2″]

This question was previously asked in

UPSC CAPF – 2015

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Hemocyanin is an oxygen-transport protein found in many invertebrates. It is a metalloprotein that contains copper atoms.

Hemocyanin utilizes copper atoms to bind and transport oxygen. Each oxygen binding site in hemocyanin contains two copper atoms.

In contrast, hemoglobin, the oxygen-transport protein in vertebrates, uses iron atoms (specifically, heme groups containing iron) for oxygen binding. Hemocyanin is responsible for the blue colour of the blood (hemolymph) in organisms like mollusks (e.g., snails, squids) and some arthropods (e.g., spiders, crustaceans) when oxygenated.

202. Consider the following statements describing the functions of plants :

Consider the following statements describing the functions of plants :

1. Photosynthesis is a process to convert light energy from the Sun into chemical energy i.e., Carbohydrates are synthesized from carbon dioxide and water using sun light
2. Fermentation or Zymology is a metabolic process that converts carbohydrate to alcohols and carbon dioxide

Which of the statements given above is/are correct ?

[amp_mcq option1=”1 only” option2=”2 only” option3=”Both 1 and 2″ option4=”Neither 1 nor 2″ correct=”option3″]

This question was previously asked in

UPSC CAPF – 2014

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Both statement 1 and statement 2 are correct descriptions of biological processes that are functions of plants.

Statement 1 is correct. Photosynthesis is the primary metabolic process in most plants (and other photoautotrophs) where light energy is converted into chemical energy in the form of glucose and other carbohydrates using carbon dioxide and water.
Statement 2 is correct. Fermentation is a metabolic process that can occur in plants, particularly under anaerobic or low-oxygen conditions (e.g., in flooded roots or germinating seeds). Alcoholic fermentation, as described, converts carbohydrates into ethanol and carbon dioxide. While not as central a function as photosynthesis, it is a metabolic pathway found in plants. Zymology is the study of fermentation. The description of the process is accurate.

Photosynthesis is essential for the survival of autotrophic plants, forming the base of most food webs. Fermentation in plants can serve various purposes, such as generating ATP under anaerobic conditions, regenerating NAD+ for glycolysis, or producing secondary metabolites. While alcoholic fermentation producing ethanol and CO2 is common (e.g., in yeast), some plants also perform this process. Other types of fermentation exist (e.g., lactic acid fermentation), but the statement specifically describes alcoholic fermentation. Both statements accurately describe processes that are functions of plants.

203. Animal cell wall is essentially made of :

Animal cell wall is essentially made of :

[amp_mcq option1=”Protein” option2=”Carbohydrate” option3=”Lipid bilayer” option4=”Cellulose” correct=”option3″]

This question was previously asked in

UPSC CAPF – 2014

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Animal cells do not have a cell wall. However, if the question is interpreted as referring to the main structural component of the animal cell boundary (the cell membrane), then it is the lipid bilayer.

Biologically, animal cells fundamentally *lack* a cell wall. Cell walls are found in plant cells (cellulose), fungal cells (chitin), bacterial cells (peptidoglycan), etc., providing structural support outside the cell membrane. Animal cells only have a cell membrane as their outer boundary. The cell membrane is primarily composed of a lipid bilayer with embedded proteins and associated carbohydrates. Given the options, “Lipid bilayer” is the most accurate description of the essential structural component of the animal cell *membrane*. The question is likely flawed in its phrasing, using “cell wall” instead of “cell membrane”, or is designed to test the knowledge that animal cells lack a cell wall, with the options representing components of structures *found in other organisms* or other parts of the animal cell. Assuming the most probable intent of the test setter asking about the main structural component at the cell periphery among the options, Lipid bilayer (the core of the cell membrane) is the closest fit, although technically it’s the membrane, not a wall.

Cellulose is the main component of plant cell walls. Protein and carbohydrate are also components of the animal cell membrane (proteins embedded within or associated with the lipid bilayer, and carbohydrates often attached to lipids or proteins on the outer surface, forming the glycocalyx), but the lipid bilayer forms the basic structural framework of the membrane. Since animal cells do not have a cell wall, strictly speaking, none of the options are correct as components of an animal cell wall. However, in the context of a multiple-choice question where a choice must be made, and given the options, it is likely that the question intends to refer to the cell membrane, or it is a poorly constructed question. Based on typical biological components listed and the presence of Lipid bilayer, it is the most likely intended answer if the question refers to the cell membrane or the primary outer structural element.

204. Which of the following ions present in low concentration in drinking w

Which of the following ions present in low concentration in drinking water is essential for normal growth of teeth but harmful to teeth at high concentration ?

[amp_mcq option1=”Aluminium” option2=”Calcium” option3=”Fluoride” option4=”Chloride” correct=”option3″]

This question was previously asked in

UPSC CAPF – 2014

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The question describes an ion that is essential for normal growth of teeth in low concentration but harmful at high concentration. This perfectly describes the effect of fluoride ions on dental health.
– Aluminium: Not considered essential for teeth.
– Calcium: A major structural component of teeth and bones, essential in large amounts. While excess calcium intake can have health implications, its role in teeth is primarily structural, not a trace element with this specific low-dose benefit/high-dose harm profile in drinking water.
– Fluoride: Fluoride ions are absorbed into tooth enamel, making it more resistant to acid attacks and preventing cavities. Low concentrations (typically 0.7-1.2 parts per million or ppm in drinking water) are beneficial for dental health. However, excessive fluoride intake, especially during tooth development, can lead to dental fluorosis (mottling and discoloration of enamel). Very high doses can cause skeletal fluorosis.
– Chloride: An essential electrolyte, but not known for this specific beneficial/harmful effect on teeth development in drinking water.
Therefore, Fluoride is the ion that fits the description.

Recall the role of fluoride in dental health – beneficial at optimal low concentrations for strengthening enamel and preventing decay, but harmful at higher concentrations causing fluorosis.

Water fluoridation is a common public health measure to reduce dental cavities. The optimal level of fluoride in drinking water is a balance between preventing cavities and avoiding fluorosis. Natural fluoride levels vary widely depending on the geological source of water.

205. Match List I with List II and select the correct answer using the code

Match List I with List II and select the correct answer using the code given below the Lists :

List I (Cell type)	List II (Function)
A. Red Blood Cell	1. Help blood to clot
B. White Blood Cell	2. Fight infection
C. The Platelets	3. Carrier of dissolved substances
D. The Plasma	4. Transport oxygen

Code :

[amp_mcq option1=”3 2 1 4″ option2=”3 1 2 4″ option3=”4 2 1 3″ option4=”4 1 2 3″ correct=”option3″]

This question was previously asked in

UPSC CAPF – 2014

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Matching the components of blood (List I) with their primary functions (List II):
A. Red Blood Cells (Erythrocytes) primarily function in transporting oxygen throughout the body. (Match A with 4)
B. White Blood Cells (Leukocytes) are part of the immune system and fight infections. (Match B with 2)
C. Platelets (Thrombocytes) are cell fragments involved in hemostasis, helping blood to clot and stop bleeding. (Match C with 1)
D. Plasma is the liquid matrix of blood that carries dissolved substances like nutrients, waste products, hormones, proteins, etc. (Match D with 3)

The correct matches are A-4, B-2, C-1, D-3.

– Red blood cells contain hemoglobin, which binds to oxygen for transport.
– White blood cells include various types like lymphocytes, neutrophils, macrophages, etc., each with specific roles in the immune response.
– Platelets aggregate at the site of injury and release factors that initiate the clotting cascade.
– Plasma makes up about 55% of blood volume and consists mostly of water, with dissolved proteins, glucose, ions, hormones, and carbon dioxide.

206. Match List I with List II and select the correct answer using the code

Match List I with List II and select the correct answer using the code given below the Lists :
List I
(Hormone)
A. Aldosterone
B. Oestrogen
C. Melatonin
D. Progesterone
List II
(Function)
1. Maintains female secondary sex characteristics
2. Controls circadian rhythm
3. Salt-retaming hormone
4. Sustains the pregnancy

Code :

	A	B	C	D
(a)	4	2	1	3
(b)	4	1	2	3
(c)	3	2	1	4
(d)	3	1	2	4

[amp_mcq option1=”(a)” option2=”(b)” option3=”(c)” option4=”(d)” correct=”option4″]

This question was previously asked in

UPSC CAPF – 2014

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Matching the hormones with their primary functions:
A. Aldosterone: This is a mineralocorticoid hormone that regulates sodium and potassium balance in the body, primarily by promoting sodium reabsorption in the kidneys. It is known as a salt-retaining hormone. (A matches 3)
B. Oestrogen (Estrogen): This is a primary female sex hormone responsible for the development and maintenance of female secondary sexual characteristics (like breast development, uterine growth, etc.) and plays a key role in the menstrual cycle. (B matches 1)
C. Melatonin: This hormone is produced by the pineal gland and plays a crucial role in regulating the body’s sleep-wake cycle, also known as the circadian rhythm. (C matches 2)
D. Progesterone: This hormone is vital for preparing the uterus for pregnancy, maintaining the uterine lining throughout pregnancy, and preventing premature contractions. It is essential for sustaining pregnancy. (D matches 4)
The correct matching is A-3, B-1, C-2, D-4.

Understanding the major roles of key hormones in the endocrine system is necessary for this question.

Aldosterone is part of the Renin-Angiotensin-Aldosterone System (RAAS). Oestrogen and Progesterone are key sex hormones produced by the ovaries, regulated by the pituitary hormones FSH and LH. Melatonin production is influenced by light exposure.

207. Which one among the following statements correctly defines the term Bi

Which one among the following statements correctly defines the term Bio-fortification ?

[amp_mcq option1=”Enrichment of the nutrient quality of the soil using biological agents” option2=”Breeding crops to increase their nutritional values” option3=”Increase of organo-metallic compounds in the organism through energy flow in an ecosystem” option4=”Adoption of genetic variable plants for breeding of high yielding varieties” correct=”option2″]

This question was previously asked in

UPSC CAPF – 2014

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Bio-fortification is the process of increasing the density of vitamins and minerals in a crop through either conventional plant breeding, transgenic techniques, or agronomic practices. The goal is to improve human nutrition by making staple foods more nutritious.

The core concept of bio-fortification is improving the *nutritional content* of the crop itself, not just the soil it grows in or its yield.

Option A describes aspects related to soil fertility or bio-fertilization. Option C describes bio-magnification or bio-accumulation, where substances concentrate in organisms up the food chain. Option D describes general plant breeding for yield, which is distinct from specifically targeting nutritional enhancement.

208. Statement I: When a piece of brick lying on grass for a number of days

Statement I: When a piece of brick lying on grass for a number of days is removed, the covered part of the grass appears pale.
Statement II: Synthesis of chlorophyll, which gives green pigment, occurs in presence of sunlight.

[amp_mcq option1=”Both the statements are individually true and Statement II is the correct explanation of Statement I” option2=”Both the statements are individually true but Statement II is not the correct explanation of Statement I” option3=”Statement I is true but Statement II is false” option4=”Statement I is false but Statement II is true” correct=”option1″]

This question was previously asked in

UPSC CAPF – 2013

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Both statements are individually true, and Statement II is the correct explanation of Statement I.

– Statement I describes an observed phenomenon: grass covered by an opaque object (like a brick) becomes pale. This is a common observation.
– Statement II provides a scientific fact: Chlorophyll, the pigment responsible for the green color in plants, requires sunlight for its synthesis. This process is part of photosynthesis.
– The paleness of the grass (loss of green color) occurs because the brick blocks sunlight, preventing the grass from synthesizing chlorophyll. Without chlorophyll, the green pigment is absent or significantly reduced. Therefore, Statement II directly explains why Statement I occurs.

– This phenomenon is an example of etiolation, a process where plants grow in the absence of light, resulting in pale, elongated stems and small leaves due to lack of chlorophyll development.

209. Plants capable of performing photosynthesis belong to which one among

Plants capable of performing photosynthesis belong to which one among the following types of organisms?

[amp_mcq option1=”Heterotrophs” option2=”Saprotrophs” option3=”Autotrophs” option4=”Chemoheterotrophs” correct=”option3″]

This question was previously asked in

UPSC CAPF – 2013

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C) Autotrophs

Organisms are classified based on how they obtain energy and carbon.
– Autotrophs are organisms that can produce their own food using light, water, carbon dioxide, or other chemicals. Plants capable of photosynthesis use light energy (photoautotrophs) to synthesize organic compounds from inorganic sources like CO2 and water.
– Heterotrophs obtain carbon by consuming other organisms (plants or animals).
– Saprotrophs are heterotrophs that feed on dead organic matter.
– Chemoheterotrophs obtain both energy and carbon from consuming organic compounds.
Plants that perform photosynthesis are the primary producers in most ecosystems and are classified as autotrophs.

Photosynthesis is a vital process for life on Earth, converting light energy into chemical energy stored in organic molecules. This process releases oxygen as a byproduct, which is essential for the respiration of many organisms, including animals. Algae and some bacteria also perform photosynthesis.

210. Leaves of lotus and water lily are not easily wet because the leaves

Leaves of lotus and water lily are not easily wet because the leaves

1. have surface uneven in micro-scale and water cannot come into contact with the depressed areas due to high surface tension
2. contain an oily substance
3. contain a greasy substance
4. have surface too smooth to attract water

Select the correct answer using the code given below.

[amp_mcq option1=”1 and 3 only” option2=”3 and 4″ option3=”1 and 2 only” option4=”1, 2 and 3″ correct=”option4″]

This question was previously asked in

UPSC CAPF – 2013

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The correct option is D. Leaves of lotus and water lily are not easily wet because of the combined effect described in statements 1, 2, and 3.

The ‘lotus effect’ refers to the superhydrophobicity and self-cleaning property of lotus leaves. This is primarily due to the hierarchical microscopic and nanoscopic structure on the leaf surface (statement 1) combined with the presence of hydrophobic substances like epicuticular waxes (statements 2 and 3). The surface structure creates a rough texture where water droplets sit on the tips of micro-papillae, trapping air beneath them (Cassie-Baxter state). This minimizes contact area between water and the leaf surface, amplified by the low surface energy provided by the waxes (oily/greasy substances), resulting in high contact angles and low adhesion for water droplets. Statement 4 is incorrect as smoothness generally increases wetting.

Statement 1 describes the crucial structural aspect and its physical consequence (water cannot fully contact depressed areas, leading to high surface tension effects like droplet formation). Statements 2 and 3 describe the chemical composition of the coating (waxes), which are hydrophobic (water-repelling) and are typically described as oily or greasy. Both the structure and the hydrophobic coating are essential for the lotus effect.