BIOL 1000 Chapter Notes - Chapter 7: 3-Phosphoglyceric Acid, Peptide, Rubisco
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Microbiology Unit 2 Applied and Environmental Assignment Part 1:
Identify Nutritional requirements from Chapter 6 & 14 (and review from chapters 1 & 2)
1. Determine which of the 4 macromolecules require the following elements:
a. Carbon: carbohydrates___ lipids___ proteins___ nucleic acids___
b. Nitrogen: carbohydrates___ lipids___ proteins___ nucleic acids___
c. Sulfur: carbohydrates___ lipids___ proteins___ nucleic acids___
2. The essential elements mentioned above are cycled through cells and the earth in biogeochemical cycles like the carbon cycle, the nitrogen cycle, and the sulfur cycle. Select the correct answer and fill in the blanks to summarize these cycles:
a. Carbon dioxide is taken in from the atmosphere by [autotrophs/heterotrophs] and converted to glucose through carbon ________________. When heterotrophs eat autotrophs they catabolize glucose to make ATP through __________________ and waste carbon is released as ___________.
b. There is plenty of nitrogen available in the atmosphere but it is not accessible to organisms because it is in the form of Nitrogen gas (N2). N2 is fixed by [bacteria/plants/animals] and converted to ammonia (NH3.) NH3 can be used by [bacteria/plants/animals] to build their cells. Next, by consuming food with amino acids, [bacteria/plants/animals] can get access to nitrogen for their own cellular needs.
c. There is also a good quantity of sulfur in dirt, rocks, and the atmosphere. Sulfur cycles between H2S => S0 => SO4 => SH groups in Proteins => back to H2S. Using _________________ respiration, anoxygenic photosynthesis, and chemolithoautotrophy [bacteria/plants/animals] convert H2S and S0 to SO4 which is taken in by [bacteria/plants/animals] and used to build their cells. When [bacteria/plants/animals] eat plants they take in essential amino acids containing sulfur and recycle these to make their own proteins.
d. _________________ break down waste and dead organisms and recycle nutrients back into the cycles.
*The C and N are summarized here: https://youtu.be/2D7hZpIYlCA and https://youtu.be/leHy-Y_8nRs
3. Identify the main metabolic classifications:
A microbe that makes its own food by taking carbon from CO2 in the atmosphere and its energy from sunlight | |
A microbe that makes its own food by taking carbon from CO2 in the atmosphere and its energy from reduced inorganic chemicals | |
A microbe that eats other organisms to get organic carbon and energy | |
A microbe that uses organic carbon from others but energy from sunlight |
Please help me with my microbiology assignment.
Review question its 1-12 sorry for the xtra questions in the bottom 1:2D chromatography is so named because ____ A: there are two steps: labeling with a radioactive marker and separation via chromatography B: two different solutions are used in the paper chromatography C: the molecules are separated into a linear arrangement, meaning two dimension D: two different types of radioactive markers must be used E: the process separates the molecules in two direction, first along the X and then along the Y axis 2: :Which molecule(s) regulate(s) photosynthesis by sensing the metabolic status of the chloroplast and regulating proton flow out of the thylakoid lumen?? A: ATP synthase B: antenna complex C: Chrolophyll B D: carotenoids E: chlorphyll A 3: When does A CAM plant take in atmospheric CO2? A: daytime only B: Summer day C: winter day D: nighttime only E: anytime the calvin cycle is happening 4: Where can you find ATP synthase in a plant cell ? B: in the mitochondial inner membrane C: both thylakid and inner mitochondria membrane D: only in the nucleus E: embedded in the plasma membrane 5: chloroplast kept in the daek can continue to make sugar is provided with A: NADPH, CO2, and ADP B: CO2, and ATP C: NADPH, ATP, and CO2 D: NADPH and ATP E: water and ATP 7: C3 plants are more susceptible to photorespiration than either C4 or CAM plants. Why do most plants lack the C4 pathway?? A: Switching between C3, C4, and CAM photosynthesis is very difficult for most plants B: ?Rubisco is more efficient in C3 plants when compared to rubisco of C4 and CAM plants C: Most plant species do not have vacuoles in their cells to store the malate generated from CO2 taken in during the night. D; : Photorespiration is not a serious problem for most plants.? E: There is an energetic cost to C4 and CAM pathways that only makes them advantageous in very hot and/or arid environments.? 8: In Engelmann's classic experiment, why were the oxygen-requiring bacteria clustered around the regions of Spirogyra algae that were bathed in red, blue, and violet light? A; The bacteria were immobile and that is where Engelmann happened to place them .? B; The most energy-rich wavelengths of light are found at the edges of visible and nonvisible light (ultra violet and infrared) C; Photosynthesis is most active in those wavelengths of light and thus more oxygen is consumed by the algae in those regions. D: Photosynthesis is most active in those wavelengths of light and thus more oxygen is produced by the algae in those regions.? E: : Chlorophyll is green and thus reflects green light. 9: In any experiment, changes to the dependent variable based on the manipulations of the independent variable are measured. When determining the action spectrum of a given plant, what is the independent variable and what is the dependent variable? A: independent = rate of O2 release in photosynthesis; dependent = wavelength? B: ?independent = absorption of light; dependent = wavelength C: independent = wavelength; dependent = rate of O2 release in photosynthesis? D: independent = wavelength; dependent = absorption of light? E: independent = rate of O2 release in photosynthesis; dependent = absorption of light 10: Which plant structure is responsible for gas exchange?? A: stromal lamellae B: grana C: granastomata? D: stroma 11: n order to elucidate the Calvin cycle, Calvin and his colleagues used two-dimensional paper chromatography to analyze the presence of different molecules under different conditions. What did they conclude from the accumulation of RuBP when CO2 levels were low?? A: CO2 serves as a non-competitive inhibitor of rubisco. B: RuBP is the last substrate to react in the Calvin cycle. C: RuBP only reacts with CO2 when concentrations of ATP are low D: RuBP is the first substrate to react with CO2 E: ?RuBP only reacts with CO2 in the sunlight. 12: Why isn't oxygen produced by organisms that perform anoxygenic photosynthesis? A; their membranes lack ATP synthase? B; They use a different enzyme for the initial reactions of the calvin cycle C: they use electrons donors other than water D: their photosystem do not utilize the calvin cycle E: their chorophyll contains an iron rather than magnesium A: ?there are two steps: labeling with a radioactive marker and separation via chromatography |
B: two different solutions are used in the paper chromatography process? |
C: the molecules are separated into a linear arrangement, meaning two dimensions? |
D: two different types of radioactive markers must be used? |
E: the process separates the molecules in two directions, first along the x axis and then along the y axis? |
2:Which molecule(s) regulate(s) photosynthesis by sensing the metabolic status of the chloroplast and regulating proton flow out of the thylakoid lumen??
A: ?ATP synthase |
B: the antenna complex? |
C: chlorophyll b? |
D: carotenoids? |
E: chlorophyll a 3: When does a CAM plant take in atmospheric CO2??
6: Where does the Calvin cycle occur?
|
7: C3 plants are more susceptible to photorespiration than either C4 or CAM plants. Why do most plants lack the C4 pathway??
A: Switching between C3, C4, and CAM photosynthesis is very difficult for most plants.? |
B: ?Rubisco is more efficient in C3 plants when compared to rubisco of C4 and CAM plants. |
C: Most plant species do not have vacuoles in their cells to store the malate generated from CO2 taken in during the night.? |
D: Photorespiration is not a serious problem for most plants.? |
E: There is an energetic cost to C4 and CAM pathways that only makes them advantageous in very hot and/or arid environments.? |
8: In Engelmann's classic experiment, why were the oxygen-requiring bacteria clustered around the regions of Spirogyra algae that were bathed in red, blue, and violet light??
A:The bacteria were immobile and that is where Engelmann happened to place them.? |
B: The most energy-rich wavelengths of light are found at the edges of visible and nonvisible light (ultra violet and infrared).? |
?c: Photosynthesis is most active in those wavelengths of light and thus more oxygen is consumed by the algae in those regions. |
D; Photosynthesis is most active in those wavelengths of light and thus more oxygen is produced by the algae in those regions.? |
?e: Chlorophyll is green and thus reflects green light. |
9; In any experiment, changes to the dependent variable based on the manipulations of the independent variable are measured. When determining the action spectrum of a given plant, what is the independent variable and what is the dependent variable??
A: independent = rate of O2 release in photosynthesis; dependent = wavelength? |
B: ?independent = absorption of light; dependent = wavelength |
C: independent = wavelength; dependent = rate of O2 release in photosynthesis? |
D: independent = wavelength; dependent = absorption of light? |
E: independent = rate of O2 release in photosynthesis; dependent = absorption of light? |
10: Which plant structure is responsible for gas exchange??
A: stromal lamellae? |
B: grana? |
C: stomata? |
?D: stroma 11: In order to elucidate the Calvin cycle, Calvin and his colleagues used two-dimensional paper chromatography to analyze the presence of different molecules under different conditions. What did they conclude from the accumulation of RuBP when CO2 levels were low??
|