Question

A specific organism [A] showing the lack of cell wall, survive without oxygen, pleomorphic. The other organism [B] has cell wall embedded with silica and indestructible. A and B respectively belong to

• A. Actinomyces, Diatoms
• B. Mycoplasma, Chrysophytes
• C. Cyanobacteria, Dinoflagellates
• D. Archaebacteria, Desmids

Hint:

Mycoplasma are unique bacteria lacking a cell wall, making them resistant to antibiotics like penicillin that target cell wall synthesis. Diatoms, part of Chrysophytes, have silica frustules that are so durable they are used in products like toothpaste and filters.

Answer 1

The Correct Option is B

This question requires identifying two organisms, [A] and [B], based on their specific characteristics. Organism [A] lacks a cell wall, can survive without oxygen (anaerobic), and is pleomorphic (capable of changing shape). Organism [B] has a cell wall embedded with silica and is described as indestructible. Let’s analyze these characteristics step by step to determine the correct organisms. - Organism [A]: Lacks a cell wall, survives without oxygen, pleomorphic The lack of a cell wall is a distinctive feature among microorganisms, as most bacteria and other microbes have a cell wall for structural support. However, the genus Mycoplasma is a well-known exception. Mycoplasma are bacteria that lack a cell wall, which makes them unique among bacteria. This absence of a cell wall also contributes to their pleomorphic nature, meaning they can change shape and appear in various forms (e.g., coccoid, filamentous) due to the lack of a rigid structure. Additionally, Mycoplasma species are often facultative anaerobes or obligate anaerobes, meaning they can survive without oxygen. For example, Mycoplasma pneumoniae, a common human pathogen, can grow in low-oxygen environments. These characteristics—lack of a cell wall, ability to survive without oxygen, and pleomorphism—perfectly match Mycoplasma. - Organism [B]: Cell wall embedded with silica, indestructible A cell wall embedded with silica points to organisms that have a hard, glass-like structure. Diatoms, which belong to the group Chrysophytes (golden algae) in some classifications, are well-known for this trait. Diatoms are unicellular algae with a unique cell wall called a frustule, which is made of silica (SiO₂). This silica-based cell wall gives diatoms a glass-like appearance and makes their frustules highly durable and resistant to degradation, often described as "indestructible" because they persist in the environment long after the organism dies (e.g., in diatomaceous earth). Chrysophytes, which include diatoms in broader classifications, fit this description. The term "indestructible" aligns with the durability of diatom frustules, which are used in applications like filtration and abrasives due to their resilience. Now, let’s evaluate the options: - Option 1: Actinomyces, Diatoms Actinomyces are bacteria with a cell wall (made of peptidoglycan), and while some species are anaerobic, they are not typically pleomorphic in the way Mycoplasma are. Diatoms fit the description of organism [B] with their silica cell walls. However, Actinomyces does not match organism [A], so this option is incorrect. - Option 2: Mycoplasma, Chrysophytes Mycoplasma matches organism [A] perfectly: it lacks a cell wall, can survive without oxygen, and is pleomorphic. Chrysophytes, which include diatoms in some taxonomic systems, match organism [B] with their silica-embedded cell walls that are indestructible. This option aligns with the descriptions of both [A] and [B], making it the correct choice. - Option 3: Cyanobacteria, Dinoflagellates Cyanobacteria (blue-green algae) have a cell wall made of peptidoglycan, not silica, and are typically photosynthetic, requiring oxygen for their metabolism (though some can tolerate low oxygen). They are not pleomorphic. Dinoflagellates have a cell wall with cellulose, not silica, and are not considered indestructible. This option does not match either [A] or [B]. - Option 4: Archaebacteria, Desmids Archaebacteria (Archaea) often have a cell wall, but it is not made of peptidoglycan (unlike true bacteria); instead, it may be composed of pseudomurein or other materials. Some Archaea are anaerobic and pleomorphic, but the lack of a cell wall is not a defining feature of the group as a whole. Desmids, a type of green algae, have a cell wall made of cellulose, not silica, and are not indestructible. This option does not fit the descriptions. Therefore, the correct answer is (2) Mycoplasma, Chrysophytes. Mycoplasma fits organism [A] due to its lack of a cell wall, anaerobic capability, and pleomorphic nature. Chrysophytes, which include diatoms, fit organism [B] due to their silica-embedded, indestructible cell walls. Thus, the correct answer is Mycoplasma, Chrysophytes.

Answer 2

A specific organism [A] showing the lack of cell wall, survive without oxygen, pleomorphic. The other organism [B] has cell wall embedded with silica and indestructible. A and B respectively belong to

Correct Answer: Mycoplasma, Chrysophytes

Solution:

Organism [A] is characterized by the absence of a cell wall, ability to survive without oxygen (anaerobic), and pleomorphic nature (ability to change shape). These are typical features of Mycoplasma. Mycoplasmas are the smallest free-living organisms, lacking a rigid cell wall, which makes them pleomorphic. Their flexibility allows them to survive in various environments, including anaerobic conditions.

Organism [B], on the other hand, has a cell wall embedded with silica, making it very tough and almost indestructible. This is characteristic of Chrysophytes, which are golden-brown algae belonging to the class Chrysophyceae. Their silica-rich cell walls (frustules) provide structural support and protection.

Thus, organism [A] corresponds to Mycoplasma (wall-less bacteria) and organism [B] corresponds to Chrysophytes (algae with silica cell walls). This distinction highlights the diversity in cell wall composition and structure among different groups of organisms.