MICROBIAL GROUP

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MICROBIAL GROUP by Mind Map: MICROBIAL GROUP

1. EUCARYOTE

1.1. FUNGUS

1.1.1. TYPE

1.1.1.1. CHYTRIDS (CHYTRIDIOMYCOTA)

1.1.1.2. ZYGOTE (ZYGOMYCOTA)

1.1.1.3. SAC ( ASCOMYCETES)

1.1.1.4. CLUB ( BASIDIOMYCETE)

1.1.2. REPRODUCTION

1.1.2.1. SEXUAL

1.1.2.2. ASEXUAL

1.1.3. FEEDING FORM

1.1.3.1. SAPROBIC HETEROTROPS

1.1.3.2. PARASITIC HETEROTROPS

1.1.3.3. MUTUALISTIC HETEROTROPS

1.1.4. ECOLOGICAL IMPACT

1.1.4.1. DECOMPOSER

1.1.4.2. SPOILER

1.1.4.3. MODIFY HABITAT

1.1.4.4. PATHOGENS

1.1.4.5. FOOD

1.2. SLIME / MOLD

1.2.1. TYPE

1.2.1.1. MYXOMYCOTA

1.2.1.2. ACRASIOMYCOTA

1.2.1.3. OOMYCOTA

1.2.2. ECOLOGICAL FUNCTION

1.2.2.1. ENGULF BACTERIA

1.2.2.2. DECOMPOSER & COMSUMER

1.2.2.3. RECYCLING OF NUTRIENTS

1.2.2.3.1. REGENERATE CONSUMER'S WASTE

1.2.2.4. CAUSE DISEASE IN PLANT

1.2.2.4.1. GRAPES

1.3. ALGAE

1.3.1. TYPE

1.3.1.1. PLANKTONIC

1.3.1.2. BENTHIC

1.3.1.3. NEUSTONIC

1.3.2. CLASSIFICATION

1.3.2.1. CHRYSOPHYTA

1.3.2.2. EUGLENOPHYTA

1.3.2.3. PYRRHOPHYTA

1.3.2.4. CHAROPHYTA

1.3.2.5. CHLOROPHYTA

1.3.2.6. PHAEOPHYTA

1.3.2.7. RHODOPHYTA

1.3.3. NUTRITION

1.3.3.1. AUTOTROPHIC

1.3.3.2. HETEROTROPHIC

1.3.4. REPRODUCTION

1.3.4.1. ASEXUAL

1.3.4.1.1. FRAGMENTATION

1.3.4.1.2. SPORES

1.3.4.1.3. BINARY FISSION

1.3.4.2. SEXUAL

1.3.5. EECOLOGY

1.3.5.1. SEAWEED

1.3.5.1.1. PROVIDE HABITAT FOR MARINE COMMUNITIES

1.3.5.2. HUMAN FOOD

1.3.5.2.1. SUSHI

1.3.5.3. PRIMARY PRODUCER FOR OCEAN

1.3.5.4. ALGAL BLOOM

1.3.5.4.1. TOXIC

1.4. PROTOZOA

1.4.1. NUTRITION

1.4.1.1. HOLOZOIC

1.4.1.2. SAPROZOIC

1.4.2. REPRODUCTION

1.4.2.1. ASEXUAL

1.4.2.1.1. BINARY FISSION

1.4.2.2. SEXUAL

1.4.2.2.1. CONJUGATION

1.4.3. CLASSIFICATION

1.4.3.1. SARCOMASTIGOPHORA

1.4.3.2. LABYRINTHOMORPHA

1.4.3.3. APICOMPLEXA

1.4.3.4. MICROSPORA

1.4.3.5. ASCETOSPORA

1.4.3.6. MYXOZOA

1.4.3.7. CILIOPHORA

1.4.4. ECOLOGICAL ROLE

1.4.4.1. MARINE FOOD CHAIN

1.4.4.2. INTERACTION WITH HIGHER ORGANISM

1.4.4.2.1. PARASITIC

1.4.4.2.2. MUTUALISTIC

2. PROKARYOTE

2.1. BACTERIA

2.1.1. VARIOUS MORPHOLOGY

2.1.2. DO NOT HV DNA MENBRANE

2.1.3. REPRODUCTION

2.1.3.1. BINARY FISSION

2.1.4. NUTRITION

2.1.4.1. PHOTOAUTOTROPHS

2.1.4.2. CHEMOTROPS

2.1.4.3. AUTOTROPHS

2.1.4.4. HETEROTROPHS

2.1.5. ECOLOGICAL FUNCTION

2.1.5.1. RECYLING OF CHEMICAL COMPONENT

2.1.5.2. SYMBIOTIC REALATIONSHIP

2.1.5.3. ENVIRONMENTAL APPLICATION

3. VIRUSES

3.1. OBLIGATE INTRACELLULAR PARASITE

3.2. CANNOT REPLICATE OUTSIDE LIVING CELL

3.3. HAVE DNA OR RNA

3.4. CAN REPRODUCE INDEPENDENT OF CELL

3.5. CAN CARRY OUT CELL DIVISION

3.6. REPLICATION

3.6.1. UTILIZE HOST MACHINERY AND METABOLISM

3.6.1.1. ATTACHMENT >PENETRATION >REPLICATION > ASSEMBLY > RELEASE

3.7. ECOLOGICAL FUNCTION

3.7.1. BIOLOGICAL WARFARE

3.7.2. CAUSE DISEASE IN HUMAN , ANIMALS , AND PLANTS

3.7.2.1. HIV

3.7.2.2. SMALLPOX

4. GENERAL CONSIDERATION OF MICROBIAL FEATURES

4.1. MICROBIAL SIZE

4.1.1. SMALL

4.1.2. LARGE

4.2. MICROBIAL CELL STRUCTURE

4.2.1. GENETIC INFORMATION

4.2.2. CELL MEMBRANE

4.2.3. SURFACE LAYERS

4.2.4. MOTILITY

4.3. MICROBIAL CELL REPLICATION

4.3.1. PROCARYOTIC CELLS

4.3.1.1. BINARY FISSION

4.3.2. EUCARYOTIC CELLS

4.3.2.1. BUDDING

4.3.2.1.1. YEAST

4.3.2.2. SPORULATION

4.3.2.2.1. FUNGI

4.4. CELL NUTRITION

4.4.1. C ,H , N , O , P , S

4.5. CELL BEHAVIOUR

4.5.1. CHEMOTOXIS

4.5.1.1. PRESENT OF CHEMORECEPTORS

4.5.1.1.1. SENSE ITS CONC

4.5.1.1.2. SENSE PRESENCE OR ABSENCE OF ATTRACTANTS OR REPELLENT

4.5.2. PHOTOTAXIS

4.5.2.1. MOVE TOWARD OR AWAY FROM LIGHT

4.5.2.2. CONTROL THE LOCALIZED DISTRIBUTION OF ORGANISM IN HABITATS

4.5.2.3. PHOTORECEPTOR AND PHOTOSYNTHETIC PIGMENT