Presentation on the topic of living kingdoms of bacteria. Kingdom of Bacteria presentation for a biology lesson (grade 5) on the topic
Theory for preparation for block No. 4 of the Unified State Exam in biology: with system and diversity of the organic world.
Bacteria
Bacteria belong to prokaryotic organisms that do not have nuclear membranes, plastids, mitochondria and other membrane organelles. They are characterized by the presence of one circular DNA. The size of bacteria is quite small, 0.15-10 microns. Based on the shape of the cells, they can be divided into three main groups: spherical , or cocci , rod-shaped And crimped . Bacteria, although they belong to prokaryotes, have a rather complex structure.
Structure of bacteria
The bacterial cell is covered with several outer layers. The cell wall is essential for all bacteria and is the main component of the bacterial cell. The bacterial cell wall gives shape and rigidity and, in addition, performs a number of important functions:
- protects the cell from damage
- participates in metabolism
- toxic to many pathogenic bacteria
- participates in the transport of exotoxins
The main component of the bacterial cell wall is polysaccharide murein . Depending on the structure of the cell wall, bacteria are divided into two groups: gram-positive (stained by Gram when preparing preparations for microscopy) and gram-negative (not stained by this method) bacteria.
Forms of bacteria: 1 - micrococci; 2 - diplococci and tetracocci; 3 - sarcins; 4 - streptococci; 5 - staphylococci; 6, 7 - rods, or bacilli; 8 - vibrios; 9 - spirilla; 10 - spirochetes
Structure of a bacterial cell: I - capsule; 2 - cell wall; 3 - cytoplasmic membrane;4 - nucleoid; 5 - cytoplasm; 6 - chromatophores; 7 - thylakoids; 8 - mesosoma; 9 - ribosomes; 10 - flagella; II - basal body; 12 - drank; 13 - drops of fat
Cell walls of gram-positive (a) and gram-negative (b) bacteria: 1 - membrane; 2 - mucopeptides (murein); 3 - lipoproteins and proteins
Scheme of the structure of the bacterial cell membrane: 1 - cytoplasmic membrane; 2 - cell wall; 3 - microcapsule; 4 - capsule; 5 - mucous layer
There are three mandatory cellular structures of bacteria:
- nucleoid
- ribosomes
- cytoplasmic membrane (CPM)
The organs of movement of bacteria are flagella, of which there can be from 1 to 50 or more. Cocci are characterized by the absence of flagella. Bacteria have the ability to directed forms of movement - taxis.
Taxis are positive if the movement is directed towards the source of the stimulus, and negative when the movement is directed away from it. The following types of taxis can be distinguished.
Chemotaxis- movement based on differences in the concentration of chemicals in the environment.
Aerotaxis- on the difference in oxygen concentrations.
When reacting to light and a magnetic field, they arise respectively phototaxis And magnetotaxis.
An important component in the structure of bacteria are derivatives of the plasma membrane - pili (villi). Pili take part in the fusion of bacteria into large complexes, attachment of bacteria to the substrate, and transport of substances.
Nutrition of bacteria
Based on the type of nutrition, bacteria are divided into two groups: autotrophic and heterotrophic. Autotrophic bacteria synthesize organic substances from inorganic ones. Depending on what energy autotrophs use to synthesize organic substances, they distinguish between photo- (green and purple sulfur bacteria) and chemosynthetic bacteria (nitrifying bacteria, iron bacteria, colorless sulfur bacteria, etc.). Heterotrophic bacteria feed on ready-made organic substances of dead remains (saprotrophs) or living plants, animals and humans (symbionts).
Saprotrophs include rotting and fermentation bacteria. The former break down nitrogen-containing compounds, the latter - carbon-containing compounds. In both cases, the energy necessary for their life is released.
It should be noted the enormous importance of bacteria in the nitrogen cycle. Only bacteria and cyanobacteria are capable of assimilating atmospheric nitrogen. Subsequently, bacteria carry out the reactions of ammonification (decomposition of proteins from dead organic matter to amino acids, which are then deaminated to ammonia and other simple nitrogen-containing compounds), nitrification (ammonia is oxidized into nitrites, and nitrites into nitrates), denitrification (nitrates are reduced into nitrogen gas).
Respiration of bacteria
Based on the type of respiration, bacteria can be divided into several groups:
- obligate aerobes: grow with free access to oxygen
- facultative anaerobes: develop both with access to atmospheric oxygen and in its absence
- obligate anaerobes: develop in the complete absence of oxygen in the environment
Bacteria reproduction
Bacteria reproduce by simple binary cell division. This is preceded by self-duplication (replication) of DNA. Budding occurs as an exception.
In some bacteria, simplified forms of the sexual process have been found. For example, in E. coli, the sexual process resembles conjugation, in which part of the genetic material is transferred from one cell to another upon their direct contact. After this, the cells are separated. The number of individuals as a result of the sexual process remains the same, but an exchange of hereditary material occurs, i.e., genetic recombination occurs.
Sporulation is characteristic only of a small group of bacteria in which two types of spores are known: endogenous, formed inside the cell, and microcysts, formed from the whole cell. When spores (microcysts) form in the bacterial cell, the amount of free water decreases, enzymatic activity decreases, the protoplast contracts and becomes covered with a very dense shell. Spores provide the ability to endure unfavorable conditions. They can withstand prolonged drying, heating above 100°C and cooling to almost absolute zero. In their normal state, bacteria are unstable when dried out, exposed to direct sunlight, raised in temperature to 65-80°C, etc. Under favorable conditions, spores swell and germinate, forming a new vegetative bacterial cell.
Despite the constant death of bacteria (eating them by protozoa, exposure to high and low temperatures and other unfavorable factors), these primitive organisms have survived since ancient times due to their ability to reproduce quickly (cells can divide every 20-30 minutes), form spores, extremely stable to environmental factors and their widespread distribution.
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Slide captions:
The most-the-most
A bacterium is a prokaryotic (nuclear-free) microorganism, most often unicellular. Kingdom Bacteria
The most ancient - the simplest in structure - the smallest - the most numerous The most - the most - the most ...
The hardiest bacterial spores are an adaptation to survival in unfavorable conditions.
The most prolific Bacterial reproduction = division of one cell into two
1) Promote the circulation of substances in nature (bacteria of decomposition and decay) 2) Enrich the soil with nitrogen compounds necessary for plant growth (soil bacteria, nodule bacteria) The role of bacteria in nature
“+” 1) Use in the food industry (lactic acid bacteria) The importance of bacteria for humans
2) Helps the metabolism of the body, improves digestion, improves immunity 3) Obtaining medicines 4) Water purification
“-” Pathogenic bacteria Cause food spoilage
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Kingdom Bacteria
Bacteria are living organisms
Bacteria are the oldest group of living organisms.
existing on Earth. The first bacteria appeared more
3.5 billion years ago and for almost a billion years
were the only living creatures on our planet.
Opening
The discoverer of the world of bacteria was Antoni Leeuwenhoek -
17th century Dutch naturalist who first created
a perfect magnifying microscope that magnifies objects
160270 times.
Anthony van
Leeuwenhoek
1632 - 1723
Habitats
Bacteria are the smallest and most numerous living
creatures. Due to their small size they easily penetrate into
any cracks, crevices, pores.
In the air: bacteria rise into the upper atmosphere up to
30 km.
In soil: 1 g of soil can contain hundreds of millions
bacteria.
In water: in the surface layers of water in open reservoirs.
Beneficial aquatic bacteria mineralize organic residues.
In living organisms: pathogenic bacteria enter
organism from the external environment, but only under favorable conditions
cause diseases. Symbiotic live in organs
digestion, helping to break down and absorb food, synthesize
vitamins.
A child’s palm after playing outside under a microscope
Structure of bacteria
Often on top of the cell wall in bacteria
an additional layer of mucus is produced -
the capsule is not an essential part of the cell, it
is formed depending on the conditions in which
bacteria enter. It protects bacteria
from drying out.
Inside the bacterial cell there is a thick
immobile cytoplasm.
Bacterial cells do not have a nucleus. That's why
They are classified as prokaryotes.
Shapes of bacteria
Breathing and eating methods
Aerobes - used for the oxidation of organic substances
oxygen;
Anaerobes - decompose organic matter as a result
fermentation.
Reproduction
Under favorable conditions, bacterial cell division occurs through
every 2030 minutes. With such rapid reproduction, the offspring of one
bacteria in 5 days can form a mass that can fill everything
seas and oceans. However, this does not happen in nature, since most
bacteria quickly die when exposed to sunlight, when
drying out, lack of food.
Diagram of bacterial division
The importance of bacteria
And in agriculture, bacteria help the farmer
fight pests and weeds when
by introducing bacterial fertilizers into the soil.
Pathogenic bacteria
Types of pathogenic bacteria:
1) Botulinum bacillus - dangerous food poisoning - botulism.
2) Salmonella - a serious disease - typhoid fever.
3) Shigella - damage to the gastrointestinal tract - dysentery.
4) Loeffler’s bacillus – damage to the cardiovascular, nervous and
excretory system - diphtheria.
5) Whooping cough is a disease that is accompanied by
severe cough - whooping cough.
6) Tuberculosis bacillus (Koch bacillus) – severe cough,
hemoptysis, fever, weight loss – pulmonary tuberculosis.
7) Bacteria of the genus Clostridium are anaerobic microbes
a) tetanus damage to the cardiovascular, nervous and
digestive systems (formation of ulcers in the intestinal wall);
b) gas gangrene, a complication of open injuries to the musculoskeletal
motor apparatus.
Bacteria are living organisms
Bacteria - the most ancient group of organisms currently existing on Earth. The first bacteria appeared more than 3.5 billion years ago and for almost a billion years they were the only living creatures on our planet.
Opening
The discoverer of the world of bacteria was Anthony Leeuwenhoek- Dutch naturalist of the 17th century, who first created the perfect magnifying microscope, magnifying objects 160-270 times.
Anthony van Leeuwenhoek
1632 - 1723
Habitats
Bacteria - the smallest and most numerous living creatures. Due to their small size, they easily penetrate into any cracks, crevices, or pores.
In the air: bacteria rise to the upper atmosphere up to 30 km.
In soil: 1 g of soil can contain hundreds of millions of bacteria.
In water: in the surface layers of water in open reservoirs. Beneficial aquatic bacteria mineralize organic residues.
In living organisms: Pathogenic bacteria enter the body from the external environment, but only under favorable conditions cause disease. Symbiotic live in the digestive organs, helping to break down and absorb food, and synthesize vitamins.
A child’s palm after playing outside under a microscope
Structure of bacteria
Bacteria often produce an additional layer of mucus on top of the cell wall - capsule- not an essential part of the cell, it is formed depending on the conditions in which the bacteria find themselves. It protects the bacteria from drying out.
Inside the bacterial cell there is thick, immobile cytoplasm.
Bacterial cells do not have a nucleus. For this reason, they are classified as prokaryotes.
Breathing and eating methods
Aerobes – oxygen is used to oxidize organic substances;
Anaerobes – decompose organic matter through fermentation.
Reproduction
Under favorable conditions division bacteria cells occurs every 20-30 minutes. With such rapid reproduction, the offspring of one bacterium in 5 days can form a mass that can fill all seas and oceans. However, in nature this doesn't happen, since most bacteria quickly die Under the influence sunlight, at drying, lack food .
Diagram of bacterial division
The importance of bacteria
And in agriculture, bacteria help the farmer fight pests and weeds by introducing them into the soil bacterial fertilizers .
Pathogenic bacteria
Types of pathogenic bacteria:
1) Botulinum bacillus– dangerous food poisoning – botulism .
2) Salmonella- serious disease - typhoid fever .
3) Shigella– damage to the gastrointestinal tract – dysentery .
4) Loeffler's bacillus– damage to the cardiovascular, nervous and excretory systems – diphtheria .
5) Whooping cough stick- a disease that is accompanied by a severe cough - whooping cough .
6) Tuberculosis bacillus (Koch bacillus)– severe cough, hemoptysis, fever, weight loss – pulmonary tuberculosis .
7) Bacteria of the genus Clostridium- anaerobic microbes
A) tetanus - damage to the cardiovascular, nervous and digestive systems (formation of ulcers in the intestinal wall);
b) gas gangrene - complication of open injuries of the musculoskeletal system.
Slide 1
Kingdom Bacteria
Bacteria. General characteristics, diversity and significance
Developed by: Biology teacher, Municipal Educational Institution “Pervomaiskaya Secondary School”, Istrinsky District, MO Lesonen Petr Petrovich
Slide 2
Bacteria are the oldest group of organisms currently existing on Earth. The first bacteria probably appeared more than 3.5 billion years ago and for almost a billion years they were the only living creatures on our planet.
Slide 3
The bacteria were first seen through an optical microscope and described by the Dutch naturalist Antonie van Leeuwenhoek in 1676. Like all microscopic creatures, he called them “animalcules.”
History of the study of bacteria
Leeuwenhoek's drawings
Slide 4
The name “bacteria” was coined by Christian Ehrenberg in 1828.
Louis Pasteur in the 1850s initiated the study of the physiology and metabolism of bacteria, and also discovered their pathogenic properties.
Medical microbiology was further developed in the works of Robert Koch, who formulated the general principles for determining the causative agent of a disease (Koch's postulates). In 1905 he was awarded the Nobel Prize for his research on tuberculosis.
Slide 5
The study of the structure of bacterial cells began with the invention of the electron microscope in the 1930s.
Scanning electron microscope
Slide 6
belong to prokaryotes (“pre-nuclear” single-celled organisms) there is no nucleus and most other organelles The bacterial cell is surrounded by a cell wall and a protective capsule Rod-shaped bacteria (bacilli) are covered with hairs - pili, which are attached to the nutrient substrate or to other cells.
Structure of bacteria
Slide 7
Bacterial cells are very small. Compare the size of bacteria to the thickness of a human hair
Sizes of bacteria
Slide 8
Spread of bacteria
Bacteria are abundant in the soil, at the bottom of lakes and oceans - wherever organic matter accumulates. They live in the cold, when the thermometer is just above zero, and in hot, acidic springs. Some bacteria tolerate very high salinity with temperatures above 90 degrees; in particular, they are the only organisms found in the Dead Sea.
Slide 9
In the atmosphere they are present in water droplets, and their abundance there usually depends on the dust content of the air. Thus, in cities, rainwater contains much more bacteria than in rural areas. There are few of them in the cold air of high mountains and polar regions, however, they are found even in the lower layer of the stratosphere at an altitude of 8 km.
Slide 10
By way of nutrition
Slide 11
Bacteria, depending on the shape of the cells, are divided into several groups: spherical - cocci, rod-shaped - bacilli or rods, spiral-shaped - spirochetes
Slide 12
Blue-green algae are also bacteria. They are capable of photosynthesis, like plants, and do not require organic matter for nutrition.
Blue-green algae
Slide 13
Under favorable conditions, bacterial cells multiply very quickly, dividing in two. If a cell doubles every half hour, then it can produce 281474976710656 offspring per day. And some bacteria can multiply even faster
Bacteria reproduction
Slide 14
The rapid proliferation of lactic acid bacteria in milk causes it to turn sour in a matter of hours
The importance of bacteria
Slide 15
In laboratories, bacteria are grown on a special nutrient medium. Millions of bacteria form colonies of different colors and shapes
Slide 17
Conclusion
Bacteria are of great importance both in nature and in human life. Some of them are harmful to other organisms (plants, animals, humans), as they cause diseases. However, the ability of bacteria to actively process organic substances, turning them first into humus and then into inorganic compounds, makes their participation in the cycle of substances on Earth indispensable.
Slide 18
Test yourself. What have you learned about bacteria?
Answer the questions Where do bacteria live? What is the cell structure of bacteria? How is the nuclear substance present in bacteria? How do bacteria reproduce? How do bacteria breathe? How do bacteria feed? How do bacteria move? What is the importance of bacteria in nature? What is the importance of bacteria for humans? Why are cyanobacteria classified as prokaryotes? Why were cyanobacteria previously classified as plants? What organisms are prokaryotes? How do prokaryotes differ from eukaryotes? How does a bacterium survive unfavorable conditions? Why are bacteria considered a biotic factor in nature?
