🦠 Microbiologie
Bactéries, virus, archées, infections & antibiotiques — Partie 12 • 4 langues
Raccourcis : 1 (All), 2 (FR), 3 (EN), 4 (ZH), 5 (KM)
FR — Le monde microbien

Bactéries : procaryotes ubiquitaires

Les bactéries sont des organismes unicellulaires sans noyau. Formes : cocci (ronds), bacilles (bâtonnets), spirilles (spirales). Paroi cellulaire : peptidoglycane. Coloration de Gram (Gram+ : violet, Gram− : rose). Métabolismes variés (aérobies, anaérobies, phototrophes, chimiotrophes).

Cocci Bacilles Spirilles Gram + / Gram - Peptidoglycane

Virus : parasites intracellulaires obligatoires

Les virus ne sont pas des cellules. Structure : acide nucléique (ADN ou ARN) + capside protéique (parfois enveloppe). Cycle lytique (destruction de la cellule) et lysogénique (intégration du génome viral). Exemples : VIH, grippe, SARS-CoV-2, bactériophages.

Archées : troisième domaine du vivant

Procaryotes génétiquement distincts des bactéries. Souvent extrêmophiles (thermophiles, halophiles, méthanogènes). Paroi sans peptidoglycane.

Infections & antibiotiques

Pathogènes : micro-organismes causant des maladies. Mécanismes : toxines, invasion tissulaire, échappement immunitaire. Antibiotiques : ciblent la paroi bactérienne (pénicillines), la synthèse protéique (tétracyclines), la réplication de l’ADN (quinolones). Résistance aux antibiotiques (sélection naturelle, β-lactamases, pompes d’efflux).

🦠 Exercice 1 — Bactéries

Quelle est la principale différence structurale entre les bactéries Gram+ et Gram− ?

Gram+ : couche épaisse de peptidoglycane (violet). Gram− : fine couche de peptidoglycane + membrane externe (rose).

🦠 Exercice 2 — Virus

Pourquoi les antibiotiques sont-ils inefficaces contre les infections virales ?

Les antibiotiques ciblent des structures ou processus bactériens (paroi, ribosomes 70S). Les virus utilisent la machinerie cellulaire de l’hôte et n’ont pas ces cibles.

EN — Microbiology

Bacteria: ubiquitous prokaryotes

Shapes: cocci, bacilli, spirilla. Cell wall contains peptidoglycan. Gram staining: Gram+ (purple), Gram− (pink). Diverse metabolisms (aerobic, anaerobic, photosynthetic, chemotrophic).

Cocci Bacilli Spirilla

Viruses: obligate intracellular parasites

Nucleic acid (DNA or RNA) + protein capsid (sometimes envelope). Lytic vs lysogenic cycles. Examples: HIV, influenza, SARS-CoV-2, bacteriophages.

Archaea: third domain of life

Prokaryotes distinct from bacteria. Often extremophiles (thermophiles, halophiles, methanogens). No peptidoglycan in cell wall.

Infections & antibiotics

Pathogens cause disease via toxins, tissue invasion, immune evasion. Antibiotics target cell wall (penicillins), protein synthesis (tetracyclines), DNA replication (quinolones). Antibiotic resistance: natural selection, β-lactamases, efflux pumps.

🦠 Exercise 1 — Viral replication

What is the difference between the lytic and lysogenic cycles?

Lytic: virus replicates and lyses the host cell. Lysogenic: viral DNA integrates into host genome (prophage) and replicates with it without killing the cell immediately.

🦠 Exercise 2 — Antibiotic resistance

How do bacteria become resistant to antibiotics?

Through mutations or horizontal gene transfer (plasmids, transformation, conjugation), producing enzymes (β-lactamases), modifying target sites, or active efflux.

中文 — 微生物学

细菌:无处不在的原核生物

形态:球菌、杆菌、螺旋菌。细胞壁含肽聚糖。革兰氏染色:革兰氏阳性(紫色)、革兰氏阴性(红色)。代谢多样(好氧、厌氧、光合、化能)。

球菌 杆菌 螺旋菌

病毒:专性细胞内寄生

核酸(DNA或RNA)+ 蛋白质衣壳(部分有包膜)。裂解周期 vs 溶原周期。例如:HIV、流感、SARS-CoV-2、噬菌体。

古菌:生命第三域

原核生物,与细菌不同。多为极端微生物(嗜热菌、嗜盐菌、产甲烷菌)。细胞壁无肽聚糖。

感染与抗生素

病原体通过毒素、组织侵袭、免疫逃逸致病。抗生素靶向细胞壁(青霉素)、蛋白质合成(四环素)、DNA复制(喹诺酮类)。抗生素耐药性:自然选择、β-内酰胺酶、外排泵等机制。

🦠 练习1 — 病毒结构

为什么病毒不被认为是活的生物体?

病毒不能独立代谢或繁殖,必须依赖宿主细胞的机器。它们没有细胞结构。

🦠 练习2 — 抗生素

简述青霉素的作用机制。

青霉素抑制细菌细胞壁中肽聚糖的交联,导致细菌因渗透压而破裂死亡。

ភាសាខ្មែរ — មីក្រូជីវសាស្រ្ត

បាក់តេរី៖ ភាវរស់ prokaryote គ្រប់ទីកន្លែង

រូបរាង៖ cocci (មូល), bacilli (ដំបង), spirilla (វង់)។ ជញ្ជាំងកោសិកាមាន peptidoglycane។ Gram stain៖ Gram+ (ពណ៌ស្វាយ), Gram− (ពណ៌ផ្កាឈូក)។

កូកូស បាស៊ីលី ស្ពីរីឡា

វីរុស៖ ប៉ារ៉ាស៊ីតកោសិកាកំហិត

អាស៊ីត nucleic (DNA ឬ RNA) + capsid ប្រូតេអ៊ីន (ជួនកាលមានស្រោម)។ វដ្ត lytic (បំផ្លាញកោសិកា) vs lysogenic (បញ្ចូលហ្សែនវីរុស)។ ឧទាហរណ៍៖ HIV, ផ្តាសាយ, SARS-CoV-2, bacteriophage។

Archaea៖ ដែនទីបីនៃជីវិត

Prokaryote ខុសពីបាក់តេរី។ ភាគច្រើនរស់ក្នុងបរិស្ថានខ្លាំង (thermophiles, halophiles, methanogens)។ ជញ្ជាំងកោសិកាគ្មាន peptidoglycane។

ការឆ្លង និងថ្នាំអង់ទីប៊ីយ៉ូទិក

ភ្នាក់ងារបង្ករោគ៖ បង្កជំងឺតាមរយៈជាតិពុល, ការឈ្លានពានជាលិកា, គេចពីប្រព័ន្ធភាពស៊ាំ។ ថ្នាំអង់ទីប៊ីយ៉ូទិក កំណត់គោលដៅជញ្ជាំងកោសិកា (penicillin), សំយោគប្រូតេអ៊ីន (tetracycline), ចម្លង DNA (quinolone)។ ភាពធន់នឹងថ្នាំអង់ទីប៊ីយ៉ូទិក៖ β-lactamase, efflux pump, ផ្លាស់ប្តូរគោលដៅ។

🦠 លំហាត់ទី១ — បាក់តេរី

តើបាក់តេរី និងអាកៀ (Archaea) ខុសគ្នាត្រង់ណាខ្លះ?

Archaea មានសមាសភាពជញ្ជាំងកោសិកាខុសគ្នា (គ្មាន peptidoglycane), ហ្សែនខុសគ្នា, និងច្រើនរស់ក្នុងបរិស្ថានធ្ងន់ធ្ងរ។

🦠 លំហាត់ទី២ — វ៉ាក់សាំង

តើវ៉ាក់សាំងដំណើរការដោយរបៀបណា?

វ៉ាក់សាំងជំរុញប្រព័ន្ធភាពស៊ាំឱ្យផលិតអង្គបដិប្រាណ និងកោសិកាចងចាំ ដោយមិនបង្កជំងឺ ដើម្បីការពារពេលមានការឆ្លងពិតប្រាកដ។