Chapter 10

Question 1

what is used to name all cellular organisms + who invented it

Answer 1

binominal system by Carl Linneaeus (1707-1778)

• each given organism is given 2 names:
  1. a generic names (genus)
  2. a specific name (species)
• • most names derive from greek to latin or sometimes derived from the name of the discoverer

Question 2

3 examples of name + where they came from

Answer 2

• salmonella typhi: Daniel Salmon- typhoid fever (bacillus typhi)
• saccharomise cerevisiae: sugar-fungus-beer
• staphyloccocus aureus: cluster-grain/berry-golden

Question 3

animalcules were originally classified in the class ___ with a mixture of other items: ___

Answer 3

Chaos

agents of fermentation, spermatozoa, the cause of syphilis…

Question 4

8 taxonomic categories

Answer 4

domain
kingdom
phylum
class
order
family
genus
species

Question 5

2 ways of classification in taxonomy

Answer 5

1. overall similarity (phenetic)
2. evolutionary relationship (phylogenetic)

• • plants, animals and organisms that are capable of sexual reproduction: a species is a group of organism that can be interbreed
• • history of microorganisms is incomplete, some microorganisms are capable of sexual reproduction (combination of genetic material from two individuals) but most reproduce assexually, so it is a species?

Question 6

time first evidence of microbial life

Answer 6

first evidence can be foud environ 3,5 billion years old (byo)

ex: microfossil bacteria (environ 3.45 byo)
* * earth is 4.5 byo

Question 7

what are stromatolites + comparison between ancient and modern stromatolites

Answer 7

microbial mats consisting of layers of filamentous prokaryotes, sediments and extracellular matrix

• • similar structure found in rocks 3.5 byo or younger
• anoxygenic phototrophic filamentous bacteria formed ancient stromatolites
• oxygenic phototrophic cyanobacteria dominate modern stromatolites

Question 8

early earth was ___ and much ___ than present day

+ first biochemical compunds were made by what

Answer 8

anoxic, hotter

** they were made by abiotic systems that set the stage for origin of life

Question 9

what are surface and subsurface origin synthesis

Answer 9

surface:

• the first membrane-enclosed, self-replicating cell arose out of primordial soup rich in organic and inorganic compunds in ponds on Earth’s surface
• dramatic temperature fluctuations (day/night) and mixing from meteor impacts, dust clouds, UV radiation, and storms argue against this hypothesis

subsurface:

• life originated in hydrothermal springs on the ocean floor
• conditions would have been more stable
• steady and aboundant supply of energy (H2S,H2) was likely available at these sites

Question 10

5 steps of the origin of life

Answer 10

1. prebiotic chemistry: biological building blocks (AA,nucleosides, sugars), it set the stage for self-replicating systems
2. precellular life: (RNA world theory where RNA-base may have been the first self-replicating system), DNA (a more stable molecule, eventually became the genetic repository), and proteins
   * * so three-part systems (RNA, DNA and proteins) evolved and became universal among the cells
3. early cellular life: early cells likely had high rates of HGT (horizontal gene transfer which is exchange of genetic material between cells)
   - building up lipids
   - synthesis of phospholipid membrane vesicles
   - assembly of vesicles catalyze by the clay of the mound, produce cytoplasmic membrane
   * * these 3 steps are between 4.3-3.8 byo***
4. LUCA to diversity modification: population of early cells from which cellular life may have diverged into ancestors of modern-day Bacteria and Archaea

Question 11

what was energy-generating metabolism of primitive cells

Answer 11

as Early Earth was anoxic, it was exclusively anaerobic and likely chemoautotroph

• C source: CO2
• energy and electron sources: H2 likely generated by H2S reacting with FeS (2 compunds present in hydrothermal mounds)
• • alternative source of H2: Fe+ H+ with UV = H2

Question 12

early forms of _______ and ______ metabolism would have support production of large amounts of _______.
+ what organic material provided

Answer 12

• chemoautotrophics and photoautotrophic
• large amount of organic compunds

organic material provided an abundant, diverse and continually renewed source of reduced organic carbon, stimulation evolution of various chemoheterotrophic metabolisms

Question 13

what is phenetic + 3 characteristics

Answer 13

• traditional method for the classification of prokaryotes introduced 200 years ago by Michael Adanson
• all characteristics should be considered to be equal of importance (unbiased)
• classification should be based on as many features as possible
• organisms should be grouped on the basis of overall similarity

Question 14

calcul associate with phenetic + what is phenon

Answer 14

• a large number of characteristics are determined for each organisms and the similarities between pairs of microorganisms are then calculated and expressed as the similarity coefficient (S) or the Jaccard coefficient (Sj)
  S= number shared/total number tested
  Sj= number shared/ total number tasted - number negative for both
• construction of dendogram to illustrate the relationship between species
• phenon: groups of organisms that have characteristics in common

Question 15

3 terms associated with phenetic

4 terms associated with phylogenetic

Answer 15

phenetic: morphology, biochemistry, physiology
phylogenetic:
- fossil record
- ribosomal RNA sequences
- multi-locus sequences typing
- whole genome sequencing

Question 16

4 aspects of phylogenetic: evolutionnary process

Answer 16

• a mutation is a change in the genome of an organism (nucleotide change, insertion, deletion)
• gene duplication, gene loss and horizontal gene transfer (acquisition of a whole new gene from another organism)
• genetic change may be silent, deleterious or beneficial (new function or change in activity)
• evolutionary pressure (stress) selects or discards mutation

Question 17

4 characteristics of mutation

Answer 17

• adaptative mutations improve fitness of an organisation, increasing survival in its environment
• silent mutations may be beneficial in other environments allowing the microorganisms to colonize new niches
• deleterious mutations are usually lost
• accumulation of mutations may lead to speciation (rise new species)

Question 18

3 things Carl Woese (1970s) did

Answer 18

• sequencing of the small subunit rRNA (SSU rRNA): 16S rRNA in prokaryotes, 18S rRNA in eukaryotes
• established the presence of 3 domains of life: Bacteria, Archaea, and Eukarya
• provided a unified phylogenetic framework for bacteria

Question 19

comparative rRNA sequencing is a routine procedure that involves the following : (3)
+ rRNA sequencing is used for what

Answer 19

1. amplification of the gene encoding SSU rRNA
2. sequencing of the amplified gene
3. analysis of sequence in reference to other sequences
   * * it is used to infer the phylogeny of prokaryotes and other microorganisms

Question 20

3 characteristics of SSU rRNA

Answer 20

• conserved region and variable region
• accumulation of neutral mutation through time (genetic drift)
• the evolutionary relationship between 2 organisms is directly linked to the number of mutation that have accumulated in each one
  ex: few differences: closely related (ex: e.coli and salmonella)
  ex: many differences: diverse a long time ago (bacteria and archaea)

Question 21

3 steps to do the phylogenetic tree + its definition and 3 characteristics

Answer 21

1. align the sequences
2. a distance matrix is calculated from the number of sequence differences
3. the tree is constructed by adding nodes to join lineages that have the fewest differences

• def: graphic illustration of the relationships among sequences
• branch lenght represent the numbers of changes that have occured along that branch (usually a scale is included)
• branches define the order and of descent and ancestry of the nodes
• note: putative common ancestor

Question 22

what is endosymbiosis + what is implied

Answer 22

def: it is a well-supported hypothesis for the origin of eukariotic cells
- it implies that mitochondria and chloroplasts arose from symbiotic association of prokaryotes within another type of cell (primitive eukaryote)

Question 23

eukaryotic cell are chimeric why? (3)

Answer 23

• eukaryotes have similar lipids andenergy metabolism to bacteria
• eukaryotes have transcription and translational machinery most similar to Archaea
• phylogenetically closer to Archaea

Question 24

2 hypothesis to explain the formation of the eukaryotic cell

Answer 24

1. eukaryotes begins as a nucleus-bearing lineage that later acquired mitochondria and chloroplasts by endosymbiosis
2. eukaryotic cells arose from intracellular association between a H2-producing bacterium (the symbiont), which gave rise to mitochondria, and an H2-consuming archaeal host. The archaeal host later develop a nucleus

Question 25

2 characteristics of filamentous actinobacteria: streptomyces
+ 5 steps from growth phase to spore mature

Answer 25

• hyphal growth (filament of cytoplasm usually not separated by cross-walls)
• produce desiccation resistant spores at the tip of an elevated structure called sporophore

1. growth phase
2. tip curls
3. partitioning of tip
4. cell walls thicken and constrict
5. spores mature

Question 26

4 characteristics of predatory bacteria: Bdellovibrio

+ 5 steps of the infection

Answer 26

infect other bacteria cells

• acquired nutrients from host cells
• does not grow on agar plates
• gram positive bacteria are not infected

1. attachment
2. penetration
3. elongation of bdellovibrio inside the bdelloplast
4. prey lysis (2.5-4h postattachment)
5. release of progeny

Question 27

3 characteristics of stalked bacteria : caulobacter

+ steps of cell division (5)

Answer 27

• found in aquatic environment
• unique cell cycle that include cell differentiation: sedentary stalked mother cell and amotile flagellated daughter cell
• the tip of the stack secrete the stickiest substance known

1. loss of flagellum (swarmer cell)
2. initiation of DNA synthesis (stalked cell)
3. synthesis of flagellin (elongated stalked cell)
4. cross-band formation (predivisional cell)
5. cell division (predivisional cell)
   environ 90 minutes

Question 28

4 characteristics of obligated intrac ellular cell: chlamydia + steps (6)

Answer 28

• grow only inside host cell
• elementary bodies: infectious, release from host cells
• reticulate bodies: intracellular, active growth
• chlamydia trachomatis, chlamydia pneumoniae

1. elementary body attacks host cell
2. phagocythosis of elementary bodies
3. conversion to reticulate body
4. multiplication of reticulate body
5. conversion to elementary bodies
6. release of elementary bodies

Question 29

Bacterial and Archaeal taxonomy: 2 characteristics + 3 methods of the polyphasic approach to taxonomy

Answer 29

• bacterial taxonomy incroporates multiple methods for classification of old and new species
• there is also a need to classify different strains of the same species
  1. phylogenetic analysis (16S rRNA,MLST)
  2. phenotypic analysis (motility, virulence, capsule..)
  3. genotypic analysis (presence/absence of specific genes..)

Question 30

what is MLST (multilocus sequence typing)

+ 4 steps

Answer 30

• method in which several different housekeeping genes from a species are sequenced and aligned to the respective sequences of other individuals of the same species
• has sufficient resolving power to distinguish between very closely related strains

1. isolate DNA
2. amplify 6-7 target genes
3. sequence
4. allele analysis, compare with other strains and generate tree

Question 31

how do we classify

Answer 31

identification of an unknown microorganism will depend on the comparison of its propoerties with those of organisms that has already been named and classified

• morphology
• biochemical properties
• MLST
• 16s rRNA gene sequencing
• dichotomous key (morphology and phenotype)
• serotyping

Question 32

different steps of dichotomous key

Answer 32

1. gram + or -?
2. if gram + = morphology ?
   if gram - = acide fermentation (acid or acid and gas)
3. if acid and gas : motile at 37degree ? (yes or no)
4. if no: urea hydrolyzed ? (yes or no)
5. if no : indole produced?
   if yes: citrate utilized?

Question 33

serotyping is based on what + definition of antibody

Answer 33

• it is based on the binding of specific antibody to surface structureL
• LPS: O serotypes (E.Coli O157:H7)
• capsule: k serotype (Klebsiella pneumoniae K1, higher virulence)
• flagella: H serotypes (E.coli O157:H7)

def antibody: molecules of the immune system that recognize and bind to molecule on the surface of a microorganism or to secreted proteins.
- positive reaction: agglutination

Question 34

technique for phylogenetic analysis (classification of species)

Answer 34

16S rRNA, MLST

Question 35

classification of strains

Answer 35

MLST, phenotypic analysis, genotypic analysis (presence of specific genes) serotyping

Question 36

identification

Answer 36

MLST, 16S rRNA, serotyping, dichotomous key, FAME