Вопрос задан 06.10.2023 в 01:49. Предмет Английский язык. Спрашивает Муратова Лейла.

Нарисать свою бактерию, от чего она,как она появилась и так далее (на английском)

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Отвечает Савельева Софья.

Ответ: Escherichia coli (lat. Escherichia coli) - a type of gram-negative rod-shaped bacteria, widely distributed in the lower intestine of warm-blooded animals. Most strains of E. coli are harmless, but serotype O157: H7 can cause severe food poisoning in humans and animals. Harmless strains are part of the normal intestinal flora of humans and animals. E. coli benefits the host organism, for example, by synthesizing vitamin K, also preventing the development of pathogens in the intestine

Объяснение: Допусти возьмём кишечную палочку

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Creating your own fictional bacterium can be a fun and imaginative exercise. Here's a description of a made-up bacterium:

Name: Lumibacillus Radiatus

Appearance: Lumibacillus Radiatus is a bioluminescent bacterium that emits a soft, soothing blue-green glow. Under a microscope, it appears as tiny, rod-shaped cells, each measuring about 2 micrometers in length. The cells are translucent, allowing the internal bioluminescence to shine through.

Origin: Lumibacillus Radiatus was discovered deep within the ocean's abyss, thriving in the extreme pressure and near-total darkness of the Mariana Trench. It is believed to have evolved unique bioluminescent properties as an adaptation to this environment.

Habitat: This bacterium prefers the cold and high-pressure conditions of the deep sea, where it forms colonies on the shells of bioluminescent organisms such as anglerfish and deep-sea jellyfish. It can also be found in underwater thermal vents, where it plays a crucial role in the ecosystem by breaking down sulfur compounds.

Diet: Lumibacillus Radiatus is an autotrophic bacterium, meaning it uses chemosynthesis to produce its own food. It metabolizes sulfur compounds and carbon dioxide, converting them into energy and organic matter while releasing oxygen as a byproduct.

Unique Traits:

Bioluminescence: Lumibacillus Radiatus produces its own light through a chemical reaction involving luciferase enzymes and luciferin molecules. This bioluminescence serves as a defense mechanism, deterring predators by creating a mesmerizing display of underwater light.
Symbiosis: It forms symbiotic relationships with deep-sea organisms, providing them with essential nutrients and protection in exchange for a habitat and access to sunlight.
Extreme Adaptation: Lumibacillus Radiatus has adapted to thrive in the extreme conditions of the Mariana Trench, making it an intriguing subject for scientific research on extremophiles.

Role in the Ecosystem: Lumibacillus Radiatus plays a crucial role in nutrient cycling in the deep-sea ecosystem. Its ability to convert sulfur compounds into organic matter helps support the entire food web in this harsh environment.

This fictional bacterium, Lumibacillus Radiatus, showcases the fascinating diversity of life on Earth and the remarkable adaptations that organisms can undergo to survive in extreme conditions.

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