John Hay
John Hay Biomedical
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Thu, Mar 4, 2027Spring (Semester 2) · Week 7Day 31 of 6780-min block

Mutation, HGT, and superbugs

Today's target

Explain how mutation and horizontal gene transfer spread resistance genes and create superbugs.

Due today · Notebook check Required

HGT mechanism definitions, conjugation diagram with labeled parts, multi-resistance explanation, colony-data application scenario, and linking sentence connecting culturing to resistance to stewardship.

Your 4 steps today
  1. 1
    Do this
    Explain how mutation and horizontal gene transfer spread resistance genes and create superbugs.
  2. 2
    Use this resource
    Open the posted files in the Resources section below
  3. 3
    Submit this
    Notebook check: HGT mechanism definitions, conjugation diagram with labeled parts, multi-resistance explanation, colony-data application scenario, and linking sentence connecting culturing to resistance to stewardship.
  4. 4
    Submit it here
    1. 1CMSD website. Go to clevelandmetroschools.org and click the Clever button.
    2. 2Clever. Clever opens. Sign in if it asks.
    3. 3Microsoft (district) login. Use your district Microsoft account (the one for school).
    4. 4Schoology. Open Schoology, then your class, then Assignments, and find the file named below.
    The file to submit is named: Genetics of Disease (Medical Interventions) › Aseptic technique, culturing, selection, resistance genes, and data reliability. › Notebook check
    Open Schoology
Were you absent? Jump to the make-up plan
Open PLTW / submit on Schoology Guided notes PDF If you were absent
AgendaPLTW WorkDaily TrackerResourcesLab & SuppliesVocabularyWebXamCareersAbsent
Where this fits
Tested on (Ohio WebXam)
Genetics of Disease · 072130
PLTW lesson
MI · Mutation, HGT, and superbugs
WebXam domain
Bio-Molecular Technology
Evidence to produce
Notebook check
Lab / skill
CDC Antibiotic Resistance
Quick glossary
CER:
Claim, Evidence, Reasoning — make a claim, back it with evidence, explain your reasoning.
SOP:
Standard Operating Procedure — the exact steps to follow (especially in a lab).
Tracker:
Your PLTW progress log where you record completed evidence.
myPLTW:
The PLTW course site where you do the online activities — you open it through Schoology.
Learn first

Minute-by-minute · 80-minute block

💡 Big idea: How can resistance genes jump between bacterial species in ways that make treating multi-drug-resistant superbugs nearly impossible?

  1. 0-10 minDefine mutation and horizontal gene transfer in notebook; list the three HGT mechanisms (conjugation, transformation, transduction)
  2. 10-25 minRead how bacteria swap resistance genes via plasmid; summarize in two sentences
  3. 25-42 minDraw a diagram: one resistant cell shares a resistance plasmid with a neighbor via conjugation; label all parts
  4. 42-55 minExplain how one HGT event can confer resistance to multiple antibiotics simultaneously; connect to the antibiotic mechanism classes from the previous unit
  5. 55-68 minUse your colony data: if one colony on your plate were resistant, how long and under what conditions would it take over the plate? Write your reasoning
  6. 68-80 minWrite the linking sentence: culturing produces data, resistance explains what the data means, stewardship is what we do about it
Mr. Mendoza's 5-minute intro
  • MRSA (methicillin-resistant Staphylococcus aureus) kills more Americans each year than HIV; it became resistant through exactly the mechanisms you are about to study.
  • Unlike animals, bacteria can pass resistance genes to bacteria of a completely different species; they do not have to wait for reproduction.
  • Your colony data from Wednesday gives you a real population to apply these ideas to.
  • Exit goal: a HGT diagram showing a resistance gene moving between cells and a superbug connection sentence.
Do this, step by step
  1. 1Define mutation and horizontal gene transfer in your own words.
  2. 2Read how bacteria swap resistance genes even between different strains.
  3. 3Draw how one resistant cell can share a resistance gene with neighbors.
  4. 4Connect this to why superbugs can resist several antibiotics at once.
  5. 5Use your colony data to imagine how a resistant colony could take over.
  6. 6Write one sentence linking culturing, resistance, and stewardship.
You'll be able to
  • You will be able to explain mutation and horizontal gene transfer.
  • You will be able to describe how resistance genes spread between bacteria.
  • You will be able to explain how superbugs arise.
Know by the end
  • Horizontal gene transfer (HGT) moves DNA between bacteria via conjugation (plasmid transfer), transformation (environmental DNA uptake), or transduction (phage-mediated).
  • Because resistance genes often travel on plasmids, a single HGT event can make a previously susceptible bacterium resistant to multiple antibiotics simultaneously.
  • Superbugs (like MRSA and CRE) carry multiple resistance genes acquired through HGT over time; some are now resistant to all available antibiotics.
📺 Tutor me: MedlinePlus: Antibiotic Resistance
Do the work

Your PLTW work today

Open this PLTW section today

Aseptic technique, culturing, selection, resistance genes, and data reliability. · Mutation, HGT, and superbugs

Day 4 of this lesson. Open this exact section in myPLTW (reached through Schoology), then do the work below.

Do this: Return to Activity 1.2.3 Attack of the Superbugs in myPLTW and measure your inhibition zones from the incubated plates.

Complete

Record zone-of-inhibition measurements for each antibiotic and write your best-antibiotic conclusion.

How far to get

Plates should be inoculated (Wednesday); zone measurements and conclusion due today.

Upload as evidence

Data table with zone measurements and conclusion sentence in notebook.

All PLTW activities are completed inside the PLTW course environment — this page only gives direction. Submit producibles on Schoology.

The plan

Today's PLTW tracker

Check things off as you work, then submit. This tells Mr. Mendoza how you're doing so he can help the class. It does not replace turning in your producible on Schoology.

Use the code Mr. Mendoza gave you, not your name. Saved on this device.

Aseptic technique, culturing, selection, resistance genes, and data reliability.Day 4 of this projectSee the full week plan
Today's PLTW target

Aseptic technique, culturing, selection, resistance genes, and data reliability. · Mutation, HGT, and superbugs

Return to Activity 1.2.3 Attack of the Superbugs in myPLTW and measure your inhibition zones from the incubated plates.

Plates should be inoculated (Wednesday); zone measurements and conclusion due today.

This is how Mr. Mendoza sees the class keeping pace with PLTW. Be honest, it only helps if it is accurate.

1 · What you do today

🎯 Explain how mutation and horizontal gene transfer spread resistance genes and create superbugs.

  • Define mutation and horizontal gene transfer in your own words.
  • Read how bacteria swap resistance genes even between different strains.
  • Draw how one resistant cell can share a resistance gene with neighbors.
  • Connect this to why superbugs can resist several antibiotics at once.
  • Use your colony data to imagine how a resistant colony could take over.
  • Write one sentence linking culturing, resistance, and stewardship.
2 · Turn in today

Notebook check: HGT mechanism definitions, conjugation diagram with labeled parts, multi-resistance explanation, colony-data application scenario, and linking sentence connecting culturing to resistance to stewardship.

Submit on Schoology

Upload by 11:29 PM for full credit.

Where to find it
Open the posted files in the Resources section below
3 · Who's doing what (team)
TaskWho
Define mutation and horizontal gene transfer in your own words._______
Read how bacteria swap resistance genes even between different strains._______
Draw how one resistant cell can share a resistance gene with neighbors._______
Connect this to why superbugs can resist several antibiotics at once._______
Use your colony data to imagine how a resistant colony could take over._______
Write one sentence linking culturing, resistance, and stewardship._______

Working solo? Put your own name in "Who" for every row.

4 · Words I can use correctly
5 · I'm successful today when I can…
  • You will be able to explain mutation and horizontal gene transfer.
  • You will be able to describe how resistance genes spread between bacteria.
  • You will be able to explain how superbugs arise.
6 · Reflection & next steps
Where are you today?0/9 checked
Pick your period and code first.
Explore

Teacher-posted resources

Classroom documents for this lesson. Ones marked “Open the file” open right here; the rest are posted in Schoology. Use the label on each card to choose the right move.

Catch-up / reteachFor: Need extra support
PLTW-MI Daily Activity Tracker Unit 1 (Final)
worksheet/handoutOpens here
Open the file

Use this if you were absent, got stuck, or need another pass before you submit the lesson artifact.

Placement rationale

Matched Culturing, aseptic technique, superbugs by path:Medical-Interventions/Unit-1_How-to-Fight-Infection/00_Unit-Overview. Score 126. Visibility: student-schoology (student-facing resource; link through Schoology rather than local path).

Use during lessonFor: Everyone
MI Activity 1.2.1 Antibiotic Therapy
worksheet/handoutOpens here
Open the file

Open this when the class reaches this activity and use it to complete the required lesson artifact.

Placement rationale

Matched Culturing, aseptic technique, superbugs by path:Medical-Interventions/Unit-1_How-to-Fight-Infection/1.2_Antibiotic-Treatment. Score 126. Visibility: student-schoology (student-facing resource; link through Schoology rather than local path).

How to get there: open the CMSD website, click Clever, sign in with your Microsoft (district) account, then open Schoology from Clever.

Lab day

Lab & supplies

Bring / set up
Agar plates (or culturing simulation)Inoculating loopBunsen burner or sterile single-use loopsBacterial sample or brothIncubatorLabeling marker and tape
CDC Antibiotic Resistance
Words

This unit's vocabulary

aseptic techniqueculturecolonyinhibitionmutationhorizontal gene transfer

Tap the speaker to hear a term. Weekly vocabulary task: add two of these terms to your notebook glossary with a definition and an example in your own words.

Check yourself

WebXam practice

Tap an answer to check it · nothing is recorded or graded
What is the purpose of a four-quadrant streak plate when inoculating a bacterial culture?
On a transformation plate you see the expected white E. coli colonies plus several fuzzy gray-green colonies. What does this most likely indicate, and what should you do?
You inoculate selective LB-ampicillin broth with E. coli that you transformed with a plasmid carrying the ampicillin-resistance gene. What outcome do you expect after overnight growth at 37 degrees Celsius?
A single random mutation gives one bacterium a stronger cell wall that resists an antibiotic. How does this lead to a resistant infection?
Check yourself

Cumulative WebXam review

A quick mixed-review pulling questions from earlier units plus today, so the WebXam material stays fresh.

Tap an answer to check it · nothing is recorded or graded
[Review: Getting ready to test: serial dilutions and the ELISA setup] A technician makes a serial dilution starting with 100 ng/mL of antigen, transferring equal parts antigen and water at each step. What is the concentration after the first two dilutions?
[Review: Reading the color: running an ELISA and trusting your controls] An ELISA result is read simply as a color change with no number attached. This kind of observed, non-measurable result is called what?
[Review: How antibiotics fight bacteria and why resistance is rising] Which mechanism is the most common way bacteria share plasmids carrying antibiotic-resistance genes?
What is the purpose of a four-quadrant streak plate when inoculating a bacterial culture?
Explore

Where this leads — careers

What today's skills lead to. These are real health-science careers this course builds toward. Tap one to see, on the US Department of Labor's O*NET site, what the job actually involves, what it pays, and how fast it is growing.

Genetic CounselorHelp families understand inherited risk and testing options.ImmunologistStudy how the body defends itself and design vaccines and therapies.OncologistDiagnose and treat cancer at the cell and DNA level.Biological TechnicianRun molecular and genetic lab techniques in research and biotech.
Safety net

What to do if you were absent

If YOU are absent

Today is individual PLTW work, so do exactly what we did in class, from home: complete the same PLTW target above, then submit your Notebook check.

Open Schoology (CMSD) and keep going

How to get there: open the CMSD website, click Clever, sign in with your Microsoft (district) account, then open Schoology from Clever.

If MR. MENDOZA is absent

Class still runs. Complete the online activity above (it's self-guided). Need the concept taught without a teacher? Use this authoritative explainer:

CDC Antibiotic Resistance
How this is graded
For: Notebook check — HGT mechanism definitions, conjugation diagram with labeled parts, multi-resistance explanation, colony-data application scenario, and linking sentence connecting culturing to resistance to stewardship.
  • Complete
    Every required part of the artifact is present, nothing left blank.
  • Accurate
    The science and the data are correct and match the evidence.
  • Scientific reasoning
    You explain your claim with evidence and reasoning (CER), not just an answer.
  • Professional communication
    Clear, organized, labeled, and written the way a clinician or scientist would.
  • Submitted
    Turned in the right way (Schoology for routine work) and confirmed.
Submission Zone

Drop your Thu, Mar 4, 2027 · Mutation, HGT, and superbugs here. Use a clear file name (your initials + project). Routine work still goes to Schoology (via the CMSD portal).

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