Lent Flashcards

Question

How does the sigma 32 factor work?

Answer 1

1. rpoH mRNA encodes σ32 factor 2. High temperatures cause stem loops to melt and exposure of SD sequence 3. At 30°C σ32 is bound to chaperone proteins (DnaK/J and chaperonins GroEL/ES) 4. Higher temperatures other proteins interact with DnaK/J 5. Release σ32 so that they can interact with HSR promoters

Answer 2

Archaea often have a phospholipid monolayer with ether-linked bonds, branched isoprene side chains Bacteria have a phospholipid bilayer with ester-linked bonds.

Answer 3

Hyperthermus thermophilus = 87.5°C P. aeruginosa = 47.3°C Extremophile has more aromatic compounds and is more compact

Answer 4

Ion pairs (S-S bonding) Increased abundance of charged residues Decreased flexibility with cyclopentene rings Existence as oligomers.

Answer 5

- Increase genome copy for redundancy - Large number of DNA repair proteins - Have a highly compacted nucleoid In halophiles, the presence of glycerol methylphosphate contributes to low membrane permeability under high salt concentration.

Answer 6

Porins are protein channels present in the outer membrane of bacteria. They form trimeric complexes with an 18-strand antiparallel beta barrel structure.

Answer 7

Pros: Provide protection, restricted access to hydrophobic molecules. Cons: All nutrients have to cross the membrane, no electrochemical gradient.

Answer 8

OmpC (smaller 1.1nm, present at high osmolarity) OmpF (slightly larger 1.2nm, more expressed at low osmolarity) allow passive diffusion of molecules <700Da.

Answer 9

LamB, a specific porin, allows maltose to enter. MalE binds maltose, transporting it across the periplasmic space to the inner membrane, where ABC transporters move it against the concentration gradient using ATP.

Answer 10

Sec translocation (unfolded proteins) Tat translocation (folded proteins) Type I (ABC transporters) Type II (secretin protein) Type III (needle-like injectisome) Type IV (DNA and protein injection).

Answer 11

Quorum sensing is a bacterial communication system. In Vibrio fischeri, LuxI synthesizes AHL, which, when reaching a threshold, binds LuxR, activating the expression of LuxI and LuxAB, leading to bioluminescence.

Answer 12

Quorum sensing regulates bioluminescence, secretion of virulence factors, conjugation, and biofilm formation.

Answer 13

Initial reversible attachment Irreversible attachment Maturation I and II Dispersal (active or passive). P. aeruginosa biofilm formation involves PelA and extracellular polysaccharide (EPS)

Answer 14

Bacteria can secrete AiiA to degrade AHL, Plants (e.g., legumes) can secrete L-canavanine to inhibit AHL-mediated communication.

Answer 15

Viruses are obligate intracellular parasites that hijack host cell machinery, replicate, assemble, and can capture host membranes to form envelopes.

Answer 16

Viruses consist of a capsid that encloses their genomes, which can be either DNA or RNA. The genomes are very small.

Answer 17

Viruses show diversity through overlapping reading frames, ambisense RNA (coding both ways), and splicing mechanisms.

Answer 18

1. Visualization through electron microscopes 2. Metagenomics 3. Koch's postulates by isolating and reinfecting a healthy organism.

Answer 19

Symbiotic polydnavirus inhibits the host immune response against wasp eggs, being integrated into the wasp's DNA and transmitted vertically.

Answer 20

Retroviral elements, for example the env gene code for syncytin proteins, are essential for placental development in vertebrates, and about 8% of the human genome consists of retroviral elements. The LTR enhancer is also important for positive feedback and release of corticotropin RH, during parturition

Answer 21

Virus-infected fungi play a role in forming relationships that impact plant health positively. Without vius infection, the fungi doesn't aid plant health

Answer 22

Viral shunt 1. Mass lysis of biomass (phytoplankton) 2. Dissolved organic matter (DOM) recycling carbon 3. Used by marine bacteria, releasing CO2 into the air for photosynthesis. - without it photosynthesis would not have sustained for so long

Answer 23

Proteins produced by pathogens that directly manipulate host cell functions. Able to modulate signalling, immune responses and cellular structures

Answer 24

Imperfect and sparse data Some countries may provide inaccurate information Difficult to quantify with different types of pathogens and crops

Answer 25

Plant death - 20-30% yield loss, sporadic yield loss that is hard to prepare against, - Quality loss leading to issues like kidney disease due to mycotoxins.

Answer 26

Necrotrophs kill cells and consume contents with a broad host range, Hemibiotrophs have an intermediate host range Biotrophs keep plant cells alive with a narrow host range.

Answer 27

They form an appressorium, puncture the cell wall, create a haustorium, and increase surface area for better nutrient exchange.

Answer 28

They invade the host, cause plant cells to differentiate and divide, and become linked together, leading to the death of both if one dies.

Answer 29

Pathogens produce effectors, often proteins, that alter host defense to benefit the pathogen for example increase the transcription of susceptibility genes ~ TAL effector, secreted by Xanthomonas, enters the nucleus, binds to DNA upstream of the promoter, and upregulates plant gene expression. It is used in early gene editing for directing enzyme cutting. HopZ1 from P.syringae, suppresses plant immune responses by inhibiting MAP kinase cascades

Answer 30

Susceptible genes are plant genes required by pathogens to cause disease, such as SWEET sucrose transporters. Mutations in these genes lead to reduced sucrose and less bacterial colonization.

Answer 31

Passive resistance - occurs when plants lack a susceptibility gene, making them less susceptible to disease. Active resistance - action by the plant to resist pathogens and involves genetically dominant resistance factors/genes. The two sub-groups are Constitutive (active all the time) and Induced (deployed when infected).

Answer 32

Physical barriers: cell wall with cross-linked glycans, lignin, and suberin, as well as the cuticle. Chemical barriers: antimicrobial metabolites and substances like nicotine and caffeine.

Answer 33

Fungi and oomycetes, such as the Rice blast fungus, form an appressorium that penetrates the cuticle and cell wall, facilitated by increased turgor pressure.

Answer 34

Pathogenic bacteria secrete proteins, DNA, hydrolases, effector proteins, cellulase, and lipases through various secretion mechanisms.

Answer 35

Nematodes use needle-like structures called stylets, which puncture the cell wall using muscle force, and secrete enzymes and effectors.

Answer 36

Viruses rely on damage to host defense or transmission via invertebrates like nematodes, insects, or fungi. Once inside, they move through plasmodesmata and the phloem.

Answer 37

Avenacin is a constitutive, preformed antimicrobial barrier. Some wheat G. graminis species secrete avenicinase to overcome its function.

Answer 38

1. flg22 is a peptide in flagellin recognized as a pathogen-associated molecular pattern (PAMP). 2. Detection by the receptor-like protein kinase FLS2 triggers PAMP-triggered immunity (PTI) through a kinase signaling cascade. 3. Formation of a complex with FLS2 and BAK1

Answer 39

- Highly conserved - Essential to the pathogen's life, and include substances like chitin, heptaglucan, and pheromones.

Answer 40

1. Blocking signaling (e.g., AvrPTO) 2. Preventing PAMP detection (e.g. LysM in fungi, greater affinity for PAMP) 3. Inhibiting PAMP creation (e.g., AVR4 preventing breakdown of chitin).

Answer 41

Caused by effector proteins secreted into host plant cells by pathogens. It serves as a second layer of protection which is stronger and more effective compared to pathogen triggered immunity (PTI), the combination of these two types of immunity creates a zig zag scheme

Answer 42

1. ETI is a larger response compared to PTI 2. Only triggered when intracellular receptors, such as NLRs, bind and detect effectors, indicating the pathogen has breached physical defenses.

Answer 43

NBS-LRRs, or NLRs, are intracellular receptors Have additional domains Both have Leucine-rich repeats (LRR), making them variable for protection against different effectors.

Answer 44

= Unrelated organisms, indepently evolve similar mechanisms in response to similar environments 1. Both plants and animals detect PAMPs and effectors entering the cell 2. Recognized by NLRs with similar structures, 3. Activating the resistosome in plants and inflammasome in humans.

Answer 45

Race-specific resistance is coded by a dominant resistance gene, controlling susceptibility and resistance against pathogens. The shape of the receptor is crucial, especially in direct recognition.

Answer 46

Direct recognition involves detecting and binding to the effector protein, requiring a wide variety of receptors. Indirect recognition involves binding to the guard model, which is then bound to the effector protein, providing a more efficient but less specific response.

Answer 47

Host protein acts as a guardee, changes to the guardee trigger the R protein. Providing resistance against a greater variety of effector proteins.

Answer 48

Negative regulation involves a bound sensor and helper proteins, with inhibition removed upon binding of effector Cooperation involves the binding and execution of the response upon sensing.

Answer 49

- antimicrobial molecules - activation of defense protein genes, - alterations to the cell wall - reactive oxygen species - hypersensitive response (HR) - systemic acquired resistance (SAR).

Answer 50

heightened triggered immunity in non-inoculated leaves, signaled by Salicylic acid (SA).

Answer 51

1° leaves initially infected have a greater concentration of PR proteins. 2° leaves, non-inoculated, also increase in PR proteins, but the response is more delayed. Showing SAR

Answer 52

WRKY transcription factors, activated by MAPK, increase resistance to stress by amplifying the signal and activating various defense genes.

Answer 53

NPR1 is a master regulator of defense gene expression. - SA signalling for SAR 1. Oligomer, broken to monomer 2. activates TAG TF 3. Moves to nucleus increases R gene transcription

Answer 54

Active resistance- plant produces a defence e.g cell wall or pesticide encoded in an R gene Passive resistance- when plant lacks a susceptibility gene

Answer 55

Positives- Doesn't require knowing exact location, conventional Negatives- Dependent on having resistance crop variety, difficult if multiple genes are involved, requires resistance testing + Linkage drag (bring along other genes)

Answer 56

- Use a DNA marker that is polymorphic - Located close to resistance gene, unlikely to be split apart - Reliable, simpler than phenotypic screening

Answer 57

1. Desired characteristics x resistance plant 2. F1 is heterozygous 3. Backcrossed with desired characteristics

Answer 58

Cisgenesis- transfer between hybridisable species Transgenesis- transfer between non-hybridisable species

Answer 59

Renseq 1. Extract DNA and form a library 2. Find baits that code for NLRs 3. Introduce the oligonucleotides from the NLRs 4. R genes in the library will hybridize with some mismatch 5. Use markers on NLRs to quantify

Answer 60

Overexpression of resistance genes leads to genetic priming - Primes immune response so that it's more rapid e.g. NPR1 response activated by SA signalling

Answer 61

Susceptibility knock out - Reduces susceptibility to disease Negative regulators of immunity knock out - Remove the negative regulators that down-regulate the immune response

Answer 62

CRISPR/Cas9 - target dsDNA - cause a break in the DNA - insert new sequence or just knockout gene

Answer 63

Natural mutation - Mutation of the TAL promoter binding area - Transfer of TAL binding element to R gene instead of S gene Gene editing - Move TAL promoters to code for R genes - Use TAL to transcribe small interfering RNA which inhibits S gene activation - Insert a TAL to interfere with another TAL encoding an S gene

Answer 64

Low durability- single dominant R gene production, which pathogen can easily develop resistance against High durability- recessive mutation e.g. mutation in the TAL promoter preventing binding of TAL

Answer 65

Spray chemicals onto plants, priming their defence - Defence can also be passed on, however it doesn't last forever

Answer 66

Signal - SA for SAR - ROS production - MAPK cascade Examples - Detect AvrPto by Pto gene in tomato - Detecte AvrB by RPM1 gene in A.thaliana

Answer 67

By use of siRNAs 1. Single stranded viral RNA 2. Converted to a dsRNA 3. Diced up by dicer into small interfering RNAs 4. siRNAs binds to argonaute 5. Double stranded segments dissociates and one is degraded. 6. Other siRNA guides argonaute to cleave viral RNA

Answer 68

- sRNA binding domain, to bind the siRNA - RNAase H domain that cleaves viral genome

Answer 69

1. Integration of transgene with GFP as a marker 2. Green flourescence seen under UV 3. When transgene is detected as foreign then silencing occurs 4. Gene no longer expressed GFP, so fluoresces red - Also with grafting one plant to another that doesn't showing spread of RNAi

Answer 70

- Sequences specific, derived from viral RNA - Amplifiable, dicing leads to many catalytic siRNAs - Mobile, able to move in the plant and stay ahead of virus

Answer 71

- Rapid movement - Produces suppressor proteins that block Argonaute e.g. P19 from the Carnation Italian Ringspot virus, which prevents binding to dsRNA

Answer 72

MicroRNAs that bind to RNA and cause the suppression of certain proteins, such as NLRs. - Can be used to generate parasite resistance

Answer 73

Suppression of NLRs e.g. Phytophthora infestans 1. Pathogen infect and suppress miRNA, which is suppressing NLR 2. This leads to NLR being activated instead of suppressed

Answer 74

Introducing RNA silencing genes into plants that are taken up by the nematode when they attack e.g. targeting HYP effector that suppresses the plant defence mechanism - However not effective as resistance can be generated

Answer 75

RNA silencing of Avr10 effector Response - Insertion of transposed elements that bind to argonautes preventing RNA silencing

Answer 76

Positives - Easy application - Specific, targets certain organisms - Low toxicity to humans Negatives - Difficult to control uptake - RNA prone to degradation by sunlight - Expensive

Answer 77

Phyllosphere- aerial part of the plant Rhizosphere - area around the root

Answer 78

Photosynthate - 40% Amino acids Species richness 30,000

Answer 79

Symbiosis: intimate living relationship between different species, can be described as a continuum Parasitism - One partner benefits at the detriment to another Commensalism - one partner benefits at no cost to the other Mutualism - both individuals benefit

Answer 80

1 .Exchange of services - Shelter (acacia) for alkaloid (ants) 2. Resources for services - Pollination 3. Resources for resources - AM symbiosis

Answer 81

1. Pollination - Plant provides food - Insect disperses pollen 2. Endosymbiotic fungi (Epichloe festucae) - Plant provides food - Fungi produces alkaloids (protect from insects)

Answer 82

1. AM interactions - Plant shelter and food - Fungi inorganics (phosphate) 2. Rhizobia interaction - Plant shelter and food - Bacteria provides ammonium

Answer 83

Beneficial (Asexual) - Grows intercellularly and at the same rate as the plant - Generates drought tolerance for the plant - Secretes insect and mammalian toxins, alkaloids against herbivory Parasitic (Sexual) - Asynchronous growth with the plant - Inflorescence (flowering) is suppressed, Grass choke disease, where the fungi form spores in inflorescence - Secretes alkaloids that attract insects to aid its own spread

Answer 84

- Single gene alteration can lead to relationship turning parasitic - MAP kinase SakA responsible for ROS production, which is for communication - Mutation leads to rapid proliferation

Answer 85

- Used to weave inbetween cells to reach primordia layer - Then carried out crack entry, which includes breaking the plant cell barrier - Developed an infection thread which is generated by a plant but hijacked by the bacteria Nodulation symbiosis evolved 90-Mya

Answer 86

Mutualism occurs when the benefit outweighs the cost Parasitism occurs when the costs outweigh the benefits

Answer 87

Fabales- Rhizobia Frankia - Fagales - Cucurbitales - Rosales

Answer 88

1. Plant secretes flavonoids when N deficient 2. Rhizobia perceives the flavonoids and secretes NOD factors (MAMPs) that are lipo-chitooligosaccharides 3. Plant detection of NOD factors leads to increase in Ca and noduel formation

Answer 89

Vasculature is found in the central Because intracellullar infections occurs when a pre-nodule has already formed

Answer 90

Vasculature is found peripherally Determinate - no meristem retained Indeterminate - meristem is maintained

Answer 91

1. Plant secretes lectin 2. Root hair grows an apoplastic envelope and entraps the bacteria 3. Cytoplasmic bridge forms moving bacteria to the base of the root hair 4. Root hair structure begins to curl around

Answer 92

Legume models Medicago truncatula and Lotus japonicus 1. Mutate the genes by radiation or transposon insertion 2. Analyse response to N deficiency = Results - Mutation in NFR1 and NFR5 which are NOD-factor receptors, leads to impaired symbiosis - nin (nodule inception) encodes TF for cell division, arrests at rhizobia recognition - rpg (rhizobium- directed polar growth) encodes coiled protein for protein-protein interaction, arrests in rhizobia recognition

Answer 93

1. Requires LHK1 (lotus histidine kinase receptor) which binds to cytokinin 2. Binding causes Ca release and increase in signalling 3. Causes a local increase in cytokinin = Mutant of lhk1, forms infection thread but no primordia

Answer 94

Positive - CEP1 peptide produced when N is low -- Detected by CRA2 receptors in the shoot --- Increases engagement with rhizobia Negative - CLE13 peptide released when N is available -- SUNN receptor in the shoot --- Suppresses nodulation by secreting micro RNAs

Answer 95

Multiple origin hypothesis - Mutation occurred in a clade that rendered it pre-disposed to nodulation Evidence against - Phylogenomics suggests there has been a loss of symbiosis ability not gain - No clear gene that shows pre-disposition - Potentially used to to be more common however has been lost due to its high cost

Answer 96

470Mya in the mid-Ordovician 80% of terrestrial plant species form these relationships - Occurred when roots hadn't developed yet due to transition from water to land - 23-37% yield increase in a variety of plants onion, parsley, cress etc. (Ortas et al.,2019)

Answer 97

1. Fossil records - Found in Rhynie chert 2. DNA sequencing

Answer 98

- No host specificity - Obligate biotrophs (cannot be grown solely in lab) - Asexual life cycle - Aseptate

Answer 99

1. Pre-symbiotic talk 2. Root penetration 3. Arbuscule formation 4. Vesicle and spore formation

Answer 100

1. Plant secretes strigolactone, with a steep gradient being formed 2. Fungi detect signal and secretes chitin based signals (e.g. lipo-chitooligosaccharides) 3. Plant sense chitin based signals by LysM receptors 4. Cause calcium spike in root epidermal cells Evidence: a membrane was introduced which only allowed strigolactone through which allowed hyphal branching

Answer 101

- Highly branched tree-like structure - Fill up most of the plant cell - Don't penetrate the cell membrane = Able to recover to initial structure quickly

Answer 102

- Movement of FA triggers their formation Evidence: mutants in FA transporters or RAM1 (TF in FA biosynthesis) - Leads to smaller arbuscular structures

Answer 103

Begins with phenotype and aim to identify the genotype changes - Phenotypes have to be unambiguous e.g. mutant screens

Answer 104

Begins with genotype and see different phenotypes - May require CRISPR-cas 9, or doing gene knockouts

Answer 105

Transcriptosome- includes the whole RNA set expressed - Monitor expression of certain RNA and secreted response proteins e.g. 1. Entry causes release of Jasmonic acid isoleucine (JA-Ile) 2. JA-Ile sensed by COI1 3. COI1 binds to JAZ6 and ubiquitinates it 4. JAZ6 is broken down and no longer inhibiting MYC2 (a pathogen response protein) Laccaria bicolor, produces MiSSP7 that inhibits JAZ6 so not broken down and allows infection

Answer 106

Analysis of evolutionary relations using genomic data analysis, for example Next-Gen sequencing

Answer 107

1. Detection of NOD or Myc factor 2. CASTOR/ POLLUX proteins cause an influx of calcium 3. CYCLOPS (Rhizobia only) - TF that decodes the Ca2+ spike causing downstream signalling 4. NSP2 is downstream of CYCLOPS and reprogramms plant cell for symbiosis establishment 5. nin, and rgp for nodulation or GRAS TF complex for arbuscules

Answer 108

Mutation in Common Symbiosis Signalling Pathway ( CSSP) altered ability - e.g. SYMRK and CCaMK (Ca/ Calmodulin dependent protein kinase) and CYCLOPS

Answer 109

Similarities - Both release lipo-chitooligosaccharides (LCOs) - Signal is perceived by LysM, containing RLK - Activation of SYMRK (symbiosis receptor-like kinases) - Activation of the MAPK cascade Differences - Nodule formation forms a whole other organ - Nodule for fixing nitrogen, arbuscule mainly for uptake and more so phosphate than nitrate - Bacteria in nodule, while a fungi for arbuscule

Answer 110

1. Impact of phosphate uptake - Increase in symbiosis by mutating SMAX1 that can be ubiquitinated by a complex of D14L and Fbox 2. Impact on nitrate uptake - Research into the development of nodule formation and symbiosis in crop plants also = Reduce the use of fertilisers

Answer 111

- Large number of susceptible hosts - Suitably virulent pathogen - Favourable environment

Answer 112

1. Host factors - resistance/ susceptibility genes - Genetic uniformity 2. Pathogen factors - Level of virulence - Amount and position of inoculum - Life cycle and timing - Mode of spread 3. Environmental factors - Temp and moisture - Other microorganisms (competition) - Effects of human activity

Answer 113

Life cycle- stages of pathogen development Epidemiological cycle - stages that are relevant to infection and spread of the pathogen Infection cycle- Stages of invasion, incubation, replication, symptom development and transmission

Answer 114

Parameter that quantifies the transmission potential of a pathogen Representing how many secondary infections are generated from a single infectious agent

Answer 115

Citrus Canker caused by Xanthomonas axonopodis (bacterium) - occurred in Florida Doesn't kill trees so would eventually lead to all trees becoming infected, so roguing to kill - Culling not effective as radii changed to drastically and many farmers didn't agree (from 38m to 580m)

Answer 116

- Causes Beet necrotic yellow vein virus - Can be picked up by machinery - Caused 80% yield loss in the UK - Cause cryptic infections, can pass virus without showing symptoms Treatment - Stewardship scheme - Farmers able to sell off crops if they think it's infected - Annual surveys

Answer 117

Caused by oomycete Phythophthora ramorum - Different effects on different species, oak causes death within years, Bay laurel survives indefinitely - Host distribution, Environmental drivers (water runoff), Pathogen dispersal (estimated with Markov Chain Monte Carlo (MCMC)) - Control is difficult and expensive

Answer 118

1. Determinate/ Indeterminate - Plants have a mix of both, determinate (flowers), indeterminate (how many branches) 2. No unique parts in plants - Due to sessile nature, no central point of control 3. Plant development is continuous - Occurs throughout life 4. Sensitive to the environment 5. No cell rearrangement

Answer 119

Central zone- small group of slowly diving cell Peripheral zone - give rise to cells that contribute to the organs of the plant Rib zone - give rise to a file of cells, that later become ground meristem L1 = differentiates into the epidermis L2 = differentiates into mesophyll L3 = differentiates into the vasculature

Answer 120

Wuschel (wus) - TF expressed at the centre of the SAM Clavata (clv) - Peptides that suppress the activity of wus - clv1 and clv2 encode receptor kinases, clv3 is a mobile peptide

Answer 121

By GFP tagging - Block the plasmodesmata by increasing callose production - This leads to GFP being concentrated and so evidence for transport via plasmodesmata

Answer 122

Movement is apoplastic - Labeling clv3 shows location outside in-between cells

Answer 123

TF that prevents cells from gaining organ identity - similar to WUS but effects a larger area - Activates CLV3 (negative regulator of stem cell proliferation) Evidence: stm mutant can't maintain a meristem

Answer 124

Arrangement of organs around the meristem Hofmeister's model - new organs are inhibited from forming due to existing organs, however organs are able to develop further away due to weaker inhibition

Answer 125

Lack of auxin leads to lack of auxin depletion - Movement is via PIN proteins, mutants lead to the development of a pin shape 1. Pin movement re-inforces the maxima 2. Spacing is usually with a golden angle of 137°

Answer 126

Different combinations and suppression of different TFs cause different structures 1. A class TF (APETALA1/P1) - Expressed in first whorls, promoting formation of septals and petals 2. B class TF (APETALA3/ AP3) - Expressed in second and third whorl, required for stamen 3. C class TF (AGAMOUS) - Expressed in fourth whorl, differentiates into carpel = Triplet mutant forms leaves

Answer 127

Root cap- protective layer that is responsible for sensing gravity Root apical meristem (RAM)- generates slowly dividing cells Division zone- division occurs more rapidly Elongation zone - Cells elongate and stop dividing Maturation/ differentiation - cells acquire different characteristics, lateral roots begin to form

Answer 128

Quiescent zone- in the middle of the RAM, where cells divide slowly an maintain stem cell population Transition zone - located above the meristematic zone, division occurs rapidly Elongation zone- elongate rapidly Maturation zone- at the proximal end of the root, become specialised

Answer 129

Dependent on the transcription factors Short Root (SHR) and Scarecrow (SCR) 1. Movement of SHR from the stele (vasculature) to the endodermis or cortex via the plasmodesmata 2. In the endodermis SHR forms a complex with SCR 3. Activate transcription of genes, controlling differentiation of cells e.g. development of Casparian strip

Answer 130

Auxin- maintains meristem Cytokinin - initiates cell differentiation

Answer 131

1. Auxin freely enters in via AUX1 2. Deprotonated so cannot freely exit 3. Moved out by PIN proteins

Answer 132

PIN1 localised on the basal membrane, promotes downward movement of auxin PIN4 and PIN7 for lateral movement and regulate vascular development PIN2 moves upwards and regulates elongation and differentiation

Answer 133

Cytokinin promotes cell differentiation = shorter root Auxin opposite = longer root 1. Ck upregulates expression of short hypocotyl 2 (SHY2) 2. SHY2 disrupts PIN proteins 3. Preventing auxin maxima formation 4. Prevents elongation Evidence: application of cytokinin leads to smaller root, as well as mutation in CK receptor ahk3-3

Answer 134

Formed from the pericycle, forming a lateral root primordium @low N - NRT1.1 transports auxin away @high N- NRT1.1 transports nitrate, auxin accumulates and forms lateral root

Answer 135

1. Movement of statoliths (amyloplasts) in the root cap 2. Sediment due to gravity act as a signal 3. Causes polarisation 4. PIN3 receptors relocalise and move auxin

Answer 136

- Grow at a set angle of 30° - Gravity is still sensed by statocytes - Caused by relocalisation of auxin, mutants don't grow lateral roots

Answer 137

Low pi - many lateral roots form - meristem is not maintained - short primary root High Pi - long primary root - meristem is maintained

Answer 138

1. IAA binds to TIR protein 2. Inhibits a TF and triggers ubiquitination 3. Degradation leaves ARF free to transcribe genome

Answer 139

Depends on the axillary bud, however apical dominance is present to control that 1. Auxin is transported from the newly developed leaves to the roots 2. Establishes a stream that bypasses the axillary bud Evidence: removal of the tip - lack of auxin stream can cause branching, purposeful application of auxin

Answer 140

- Causes PIN1 depletion - Reduced auxin flow, meaning less auxin in the axillary buds so less branching Evidence: mutants in strigolactone synthesis show high degree of branching

Answer 141

1. Pavement cells - forming impermeable barrier 2. Stomata - control gas exchange and water loss 3. Trichomes - protect against herbivores, especially important in early life

Answer 142

1. Protedermal 2. Meristemoid mother cells (MMCs) 3. Meristemoid 4. Guard mother cell 5. Guard cell

Answer 143

1. Speechless - causes conversion from MMCs to meristemoid Mutant= lack of stomata, synchronous division 2. Mute - causes conversion from meristemoid to GMCs Mutant = asynchronous division by no stomata 3. FAMA - causes conversion from GMCs to GCs, ensuring only one division Mutant = many divisions occur, no clear stomata in the guard cell

Answer 144

YODA, downregulates speechless - Important in regulating stomata density Mutant = many stomata, small green plant

Answer 145

SCRM1 and SCRM2 - Prevent excessive stomatal formation - Partially redundant, knockout of one is still OK Mutant = abnormal stomatal density and development

Answer 146

BASL polarises the MMC during cell division - BASL crescent generated on the opposite wall - Causing asynchronous division Where BASL is present, leads to stomata fate Orientate in such a way that stomata are separated by at least one cell Robinson et al., 2011

Answer 147

Epidermal patterning factor 1/2, binding to ERECTA and TOO MANY MOUTHS (receptors) EPF1 - Negatively regulates MUTE - Mutant - leads to stomata closer together - Present in late meristemoids and GMCs EPF2 - Negatively regulates SPCH, inhibiting MMC generation - Leads to less stomata - Present in MMC and early meristemoid MUTANT = lead to too many stomata

Answer 148

Peptide hormone that promotes stomatal development Triggers asymmetric divisions, by promoting SPCH

Answer 149

1. CO2 HIC (high carbon dioxide) leads to reduced stomatal density - upregulates EPF2 which inhibits SPCH 2. Temperature - High temp sensed by PIF4, which downregulates SPCH 3. Drought - ABA released reducing expression of SPCH and MUTE

Answer 150

Monocots - Dumb-bell shaped guard cells - Prominent subsidiary cells Dicots - Sausage shaped guard cells Adaptations - Some may have sunken stomata, or trichome protected stomata

Answer 151

- SPCH not as important - Cell are organised in files (vertical lines), and some file are unable to develop into stomata

Answer 152

Crop improvement - Developing more drought resistant crops by changing stomatal density and increasing water use efficiency Also used to prevent flower and plants from wilting

Answer 153

Natural - Maximise offspring - Flexible growth habit - Seed may be poisonous - Seeds are dispersed Human - Maximise fruit/ desired part of the plant - Less flexible growth habit - Edible seeds - Seeds retained

Answer 154

Maize (undergone human selection) - Larger and softer kernels - More ears, giving rise to flowers - Seeds mature more rapidly Teosinte (undergone natural selection) - Greater degree of branching, in an attempt to outshade neighbours

Answer 155

TB1 suppresses bud activation In maize promoter sequence and expression is different, compared to teosinte Mutant: looks like teosinte

Answer 156

BRC1 and BRC2 expressed in the axillary meristem - Reduced branching - Upregulated when plants perceive crowding

Answer 157

Reduced height, by activating a dwarfing gene RHT Advantages - Reduced lodging - More energy to seeds - Less shading of each other and self

Answer 158

Gibberellic acid (GA) promotes elongation - Breaks down DELLA which is bound to a TF on an elongation gene

Answer 159

Detect: greater ratio of far red light, compared to red light Signal: - Increase in GA signalling - Upright growth (etiolation)

Answer 160

Citrus fruits - More branches, more fruit How? - Increase in WUS, means axillary stems become branches instead of thorns

Answer 161

Tef - Feed 70% of people in Africa - Long and seeds are small - Drought and flood resistant Target: Increase in seed size and decrease in height to reduce lodging

Answer 162

- Greater area available for growth - Irrigation - Pesticides - Green revolution - Fertilisers

Answer 163

First - Produced from edible crops such Second - produced from the waste, non-edible parts of the crops

Answer 164

- Efficiency of plant to convert light to biomass is low (overall 0.13%) - Effect on food security - Not enough space to be a good enough alternative - Emissions are also released in transport, growth and other processes

Answer 165

1. Solar - Photovoltaic solar panels with efficiency of 20% 2. Hydro 3. Wind

Answer 166

Balance between incoming solar radiation and the outgoing IR radiation

Answer 167

Hadley cell - air rises at the equator and condenses at 30° latitude, so rain is present in between Ferrel cell - transports warm air to higher latitudes

Answer 168

1. Aquifer exploitation - e.g. Saudi Arabia, Mexico city, California for almonds 2. Land-use change - more surface run-off and change in residency time or ability to replenish underground stores 3. Over-exploitation - Aral sea turned Aralkum desert due to irrigation by using river water 4. Global warming - indirect effect, causing greater rates of evapotranspiration

Answer 169

Pre-industrial 280ppm, currently 421ppm Greenhouse gases- gases that trap heat as IR and UV, and re-emit IR back to the Earth

Answer 170

1. Land use change - Increase in livestock farming, less trees and more release of CH4 2. Burning of fossil fuels - Release long term C stores (fossils) into the atmosphere KEELING CURVE - measured increase since 1958

Answer 171

1. Response to exogenous auxin application 2. Auxin gradients 3. Auxin transport mutants (PIN) 4. Analysis of temporal correlation between changing conc and organ formation 5. Hofmeister's model of lateral organ formation and auxin maxima

Answer 172

1. Fossils in Rhynie chert from early Devonian 2. Phylogenomics - branching and formation of glomeromycota clade occurred early 3. Ecological considerations 4. Signalling pathways are highly conserved in many land plants (CYCLOPS and SYMRK)

Answer 173

- Increase in drought tolerance, fungal hyphae can access water and generates a greater SA - Endophytic bacteria and AMF secrete osmoprotectants that help plants develep stress response and control osmotic adjustment - Interaction can lead to production of osmolytes and antioxidants in preparation for stress. Can help remove ROS and stabilise membranes

Answer 174

- Requires a model plant, such as Medicago truncatula 1. forward genetics where mutants are formed and their phenotypes analysed, to locate which genes regulate symbiotic interactions -Mutations in LysM and NOD factor receptors, led to lack of signal perception and lack of symbiosis 2. Genetically map them to identify the mutated gene 3. Quantify mutants by looking at number or morphology of primordia formation or arbuscule intensity - e.g. discovery of CYCLOPS in M.truncatula by lack of formation of formation of nodules 4. Confirm genes by reverse genetics, causing knockouts by CRISPR/ Cas9, or complementation assays

Answer 175

- Teosinte branched 1 gene - Mutant shows greater branching like teosinte - Important as part of the green revolution - TB1 also controls height of plant (Dixon et al,.2020)

Answer 176

Similarities - Both play a role in generating plant immunity - Initiate defence responses, by triggering signalling cascades Differences - PRRs have a broader specificity, NLRs recognise more specific patterns. Can bind directly or indirectly - PRRs are located on the cell surface or on endosomes, NLRs are cytoplasmic - PRRs are constitutively active and rapidly activate, NLRs are inactive and activated when effector binds - PRR occurs in early stage, more wide spread. NLRs more localised occurs later in infection

Answer 177

-Cryptic infection is when a plant is infected, not showing symptoms but still able to transmit disease - Makes controlling the disease harder because by the time control has been put in place the disease has already spread - Makes culling and roguing less effective - Requires integrated management such as sanitation, crop rotation and removal

Answer 178

- SI and SIR are simple models - Both useful to study the early stages of disease dynamics - SI doesn’t consider recovery or death of plants - SI assumes constant population size -SIR includes recovery and the effect of control strategies - SIR assumes a constant homogeneous mix and constant transmission - SIR is more complex than SI

Answer 179

- Cull more trees (Greater radius) - Look for infections more frequently - More accurate detection of disease - Decrease time between disease noticing and culling Limitations - Ethically - public objection - Money - Increasing detection accuracy is difficult

Answer 180

Auxin - promotes cell elongation, signals apical dominance, transported by PIN transporters. Involved in differentiation of the xylem and phloem Gibberellins (GA)= regulates stem elongation, diffuses freely and act locally, promotes cell elongation and division

Answer 181

1. Initiation by plants AM = strigolactones, Rhizboia = flavonoids 2. Secretion of LCO by microbes, AM = chitin, Rhizobia = Nod factors 3. Detected by LysM receptors 4. Ca2+ spike 5. Increase expression of symbiosis genes

Answer 182

Vascular tissue in the root Contains the pericycle, phloem and xylem

Answer 183

Impermeable, hydrophobic material found in the cell walls of endodermal cells in plant roots. - Made of suberin. - Regulates the movement of water and solutes into the vascular system of plants

Answer 184

- Mutagenesis screens - generating mutations and looking at the phenotype can be done by CRISPR (R) - Use Medicago truncatula that can form root nodulation and AM - RNA silencing - insert RNA constructs to see if certain proteins and RNA are important - Also require phenotypic screens measuring root number, Arbuscule formation etc.

Answer 185

1. GFP - Accurate, temporal resolution - Can undergo photobleaching - Seen using fluorescence microscope 2. GUS - Easy to do but plant has to be dead - Seen with light microscope 3. Luciferase - Can be transiently expressed with diurnal cycles, high sensitivity - Requires specific substrate luciferin - Seen using a luminometer

Answer 186

- Terminal flower 1 (TFL1) - prolongs meristem by suppressing flowering - Mutant tfl1 flower early and lose the meristem quickly - Cytokinin – promote meristem activity and delay flowering - GA and Auxin – promote flowering

Answer 187

1. Detection of flg22 by FLS2 which associates with BAK1 2. Detection of chitin by CERK1 triggering kinase cascade, increase in chitinases

Answer 188

1. Thermus aquaticus - adapted to high temps - DNA repair enzymes, Taq polymerase, heat stable proteins 2. Ferroplasma acidiphilum - acidic conditions - proton pumps, DNA repair enzymes 3. Photobacteria profundum - deep sea, high pressure - cavities in proteins to facilitate compression, more unsaturated FA to maintain membrane fluidity

Answer 189

Gibberellic acid (GA) - Promotes growth, elongation and division - Inhibits DELLA, which inhibits growth Auxin - Promotes growth - Regulated by PIN proteins, and NRT1.1 - Important in apical dominance - Response to gravitropism

Answer 190

Effective - Localised area - Clear pathology - Specific to a species Fail - Cryptic infections - Subtle symptoms - Soil-borne pathogen - Large area of land or transmission distance

Answer 191

1. Target essential genes in pathogens e.g. Avr10 in fungi 2. Target specific pathogens 3. As a spray or get plant to synthesise 4. Common against viruses

Answer 192

1. Heat shock proteins - E.g. HSP70 and 90 - Chaperone proteins that help with folding - activated by σ32 2. Antifreeze proteins - Bind to ice crystals prevent their growth 3. Osmoprotectants - Compatible solutes such as mannitol and proline

Answer 193

- Balance of signals e.g. phytohormones such as jasmonic acid (JA), salicylic acid (SA), and ethylene - Genetic studies have analysed the importance of genes in this network - Infection with mutant strains influence stability

Answer 194

1. Transcriptional factors - SPCH, MUTE and FAMA 2. Patterning factors - SCRM 1 and 2, promote stomata formation 3. Polarisation of cells - BASL 4. EPF2 (inhibit SPCH) and EPF1 (inhibits MUTE)

Answer 195

1. Climate - important as release of water vapour (greenhouse gas) 2. Generation of precipitation 3. Plant growth 4. Recycling and removal from soil 5. Hydraulic conductance inside the plant (generates -ve water potential)

Answer 196

- Co-evolution with host - Improves pathogen fitness - Help maintain diversity - Different Avr allows infection of different hosts, ecological niches - Non-virulent if the plant has a corresponding R gene

Answer 197

* Use M.truncatula or Lotus japonicus * Use control, AM only and rhizobia treated and dual treated * Grow in controlled conditions * At certain times along development carry out RNA extraction and quantitative PCR * Find what genes are being expressed, which ones vary * Validate using targeted knockouts e.g. CRISPR or RNAi

Answer 198

1. Terminal flower 1 (TFL1) - lack of or mutation leads to flower formation 2. Agamous (AG) - causes termination of FM, ag leads to loss of ability - Requires high levels and central expression (Prunet et al., 2009) 3. Cytokinins upregulation and auxin downregulation

Answer 199

1. TAL effector - Xanthomonas, regulates transcription of R genes 2. HopZ1 from P.syringae, inhibits MAP kinase cascades 3. AvrPtoB, targets protein kinases involved in defense signaling pathways, such as FLS2 4. Elicitins by Phytophthora species, alter lipid metabolism that alters the membrane 5. ToxA – necrotic factor produced by some fungi

Answer 200

- Early transcription termination strand - Viral genes, overlapping reading frames - DICER of viral genomes for siRNAs to be used as guides

Answer 201

To remove the chlorophyll

Answer 202

1) During viral replication dsRNA intermediate is made 2) Host dependent RNA pol

Answer 203

Longitudinal division Short root (SHR) - TF for endodermis expression Scarecrow (SCR) - maintains SHR to one side, so that other becomes the cortex

Answer 204

SHR - no endodermis is formed, only the cortex SCR - mix of endodermis and cortex, due to lack of localisation of SHR by SCR

Answer 205

- Bioremediation- remedying or reversing of pollutants in an area, by action of microorganisms - Co-metabolism is the transformation of pollutants indirectly while using another growth substrate (primary sources for carbon). - Production of by-products or enzymes, while using another carbon source, that then act to remove pollutants - Bioremediation reduces toxicity of the land, so that other plants can grow on it - Co-metabolism can be more efficient and cost-effective

Answer 206

Similarities - Short RNA strands (20-24bp) - Complementary binding occurs to regulate gene expression - Produced by DICER - Associated with Argonaute Differences - Source of RNA strand (si exogenous template, mi endogenous template) - siRNA more specific - Many siRNAs arise from a precursor (diced)

Answer 207

- Carbon cycling by causing death of organsims - Viral shunt in the oceans - Mutualistic symbiosis, AM fungi and rhizobia bacteria - Saprotrophic bacteria decompose dead matter - Some extremophiles are bacteria, can survive in harsh conditions and help support life

Answer 208

nin - nodule inception Mutant = recognition but no infection thread rpg - rhizobium-directed polar growth Mutant = defect in infection thread, encodes a coiled protein

Answer 209

hit1 (hyperinfected 1) - histidine kinase receptor that responds to cytokinin to form nodule Mutant = infection thread but no nodule

Answer 210

- cheaper than growing fields - can select for recessive phenotypes - can be used to select multiple genes - more efficient

Answer 211

Latent- period of time before becoming infectious Incubation - period of time before becoming symptomatic

Answer 212

EPF1 and EPF2 regulate SPCH, MUTE and FAMA - Act on receptors TMM and ERECTA BASL - polarises cell, opposing end has stomatal fate, ensures 1 cell spacing

Answer 213

- Promotes shoot growth - Delays senesence - Promotes short root, by promoting differentiation - Enhances drought tolerance - Involved in signalling for nitrate and phosphate - Signalling for rhizobia symbiosis, by detection by LHK1

Answer 214

1. Heat - Heat shock proteins E.coli - DNA repair enzymes - More copies of DNA - Ether linked lipid membrane (archaea) 2. Pressure - Cavities in proteins to allow compression (photobacteria profundum) 3. Acidic - Transporters that move H+ out 4. Cold - antifreeze proteins

Answer 215

1. Overexpression in Arabidopsis and rice led to greater resistance - BLAST sequencing showed evolutionary conservation 2. PR1 fused to GUS, mutated and analyse lack of GUS (reverse genetics) when infected - Found a nonexpressor of PR1 (NPR1) - Found that it was upstream and encoded PR1 - Cloned NPR1, introduced into mutant, regained SAR

Answer 216

1. Ligand binds to D14L 2. Conformational change occurs 3. D14L binds to Fbox and SMAX1 4. Ubiquitinates SMAX1 5. SMAX1 is degraded

Answer 217

Around 70% of Pi is taken up by AM fungi e.g. in rice Yang et al., 2012

Answer 218

1. Phylogenetic evidence - nodulating plants, more closely related than non-nodulating 2. Comparative genomics- show a shared set of conserved genes encoding Nod factors 3. Gene loss event- genomic studies into multiple gene loss events 4. Molecular dating - divergence of FaFaCuRo and development of nodulation around the same time

Answer 219

1. Common symbiosis genes (SYMRK and CCaMK) Stracke et al., 2002 2. Functional evidence (Ca2+ spike) 3. Morphology studies 4. Complementation (SYMRK from L.japonicus to M.truncatula)

Answer 220

1. Location E = Nucleus P = cytoplasm 2. Enzymes E = RNA pol I-III P = single type of RNA pol 3. Promoter recognition E = TATA box binding, TF bind to promoter P = -10 and -35 elements in the promoter region 4. RNA processing E = PolyA tail, 5- capping, splicing P = Polycystronic (code multiple proteins) 5. Termination E = cleavage and addition of PolyA tail P = Rho in/dependent hairpin or Rho protein dissociation

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