Lecture 4 Microbial Growth and Nutrient Flashcards
Why is understanding microbial nutrition important?
Crucial for comprehending how microorganisms obtain energy and nutrients, allowing us to study their physiology, metabolic processes, and role in the environment
What are different methods used to grow microorganisms, and how are they selected?
Culture media
liquid vs. solid media, complex vs. defined, selective vs. differential cultures.
Axenic vs Enrichment media
Continuous vs Batch culture
What are macronutrients and micronutrients, and what role do growth factors play in microbial nutrition?
Macronutrients are required in larger amounts (C, O, N, K)
, while micronutrients are needed in trace amounts (Cu, Co, Zn, Fe,) metals
Growth factors, things that the cell cannot produce such as vitamins and amino acids, are essential for microbial growth
What is the Great Plate Count Anomaly, and what factors contribute to it?
many dead cells
cells could not grow on media (environment conditions)
some organisms grew faster tthan others
VBNC
What are the environmental factors influencing microbial growth?
Temperature, pH, water activity, oxygen/redox potential, pressure, radiation
What are organisms that like nutrient rich environments called?
oligotrophs
organisms that like nutrient low rich environments called?
copiotrophs
Different organisms that have low water activity…
halophile
-high salt concentration
osmophile
-high solute concentration
xerophile
-dry environment
How does water activity impact microbial growth, and what are some adaptations to low water activity?
influences solute activity and concentration
water potential should be positive in cells (hypertonic to solution)
if less water is coming in, they will decrease their Aw, increasing internal solute concentration so that solutes will come into the cell.
How does redox potential relate to microbial growth, and what are examples of microbes with different oxygen preferences?
Redox potential describes electron availability. Microbes exhibit preferences such as aerobes, anaerobes, and facultative anaerobes.
How do organisms adapt to high-pressure environments, and what mechanisms provide resistance to ionizing radiation?
Barotolerant and piezophilic organisms adapt to high pressure. Resistance to radiation involves DNA repair and protein protection mechanisms.
Adaptions to temperature
cold (increase fluidity)
-more a helices than b
-short fatty acids, more space
-poly unsaturated
-cryoprotectants: inhibit crystal ice formation
- cold shock proteins: chaperone proteins
Hot (resist denaturing)
-long, saturated fatty acids
-amino acid substitutions create more heat resistant folds
- ionic bonds between acidic and basic amino acids resist unfolding
-production of solutes: help stabilize proteins
