Answer: True
Explanation:
Enzymes are biological molecules or proteins that speed up chemical reactions or processes in living cells but do not get used up and can be use over again.
Enzymes are very important in the body in that they help in digestion( I.e breakdown of food particles into small pieces) and metabolism. They change energy requiring actions to energy releasing reactions.
The statement that "enzymes are proteins that change energy-requiring reactions to energy-releasing reactions" is false.
Explanation:Enzymes are proteins that act as biological catalysts to speed up both energy-requiring and energy-releasing reactions by lowering the activation energy, but do not change the type of reaction.
Enzymes are indeed proteins, but they do not change the type of reaction. Instead, they function as biological catalysts to speed up chemical reactions, including both energy-requiring (endergonic) and energy-releasing (exergonic) reactions. They achieve this by lowering the activation energy needed for reactions to proceed.
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Ichthyostega is a 370-million-year-old fossil from Greenland. Ichthyostega had digits, eyes on the top of its head, and strong, armlike bones. It also had no gills and a reduced tail. Acanthostega, Eusthenopteron, and Tiktaalik all had gills and full tails. Which organism would you place Ichthyostega closest to on this phylogenetic tree?
Answer: Closer to Acanthostega
Explanation: Phylogenetic tree is a diagram that represents evolution patterns of species. The ramification of the tree indicates how the species evoluted from a series of commom ancestor. Two species are closely related if the ancestor is closer to them. By it, it means that two species are closer if their characteristics are similar to each other. As the question stated, Ichthyostega had digits and reduced tail. Among the three others, Acanthostega has arms with digits, gills, tails and no fin.
So, in the phylogenetic tree, the branch that has acanthostega would be closer to the one with Ichthyostega, as this one is likely the descendent of the previous one.
Answer:
Tulerpeton
Explanation:
Tadpoles raised in water with atrazine levels of 0.1 ppb should produce a higher percentage of male frogs with gonadal abnormalities than those raised in pure water.
This statement is an example of:
A. a question leading to a hypothesis
B. a hypothesis
C. a testable prediction leading to design of an experiment
D. data from an experiment
E. an interpretation of data
Answer:
Option C, a testable prediction leading to design of an experiment
Explanation:
The statement here predicts the outcomes of raising tadpoples is water with atrazine levels of 0.1 ppb as compared to the ones raised in pure water. Hence, it cannot be question. Now since this prediction can be tested, an experiment can be designed where a certain number of tadpoles can be raised in pure water and the same number of tadpoles can be raised in water with 0.1ppb of atrazine level. The difference in two populations can be then compared to either support the prediction or contradict it.
Hence, option C is correct
Based on the definition of a watershed, how many different watersheds were there in your model? Explain how you determined this number.
Answer:
Water shed is created when an area or land separates the water flowing to different rivers, basin and seas.
Explanation:
Water shed are of different types-
Large water sheds-Contain well developed channel networks.Small water sheds-Contain dominant land phase.Urban watershed-It is dominated by building,roads,pavements.Agriculture water shed-Forest water shed-Evapotranspiration is the dominant component of the hydrologic cycle.Mountain water shed-mountain is the dominant component that separates the water flow.Desert water shed-Sand dunes sand mounds that are formed by blowing air causes separation of water flow.Coastal watershed-Coastal area may partly be urban and is dynamic contact with sea.The hydrology is influenced by tidal action.The number of watersheds in a model depends on its design. Watersheds are areas of land that drain into common outlets, such as a reservoir or bay. To determine how many watersheds are in a model, identify the common outlets and each individual area that drains into one of these outlets is a separate watershed.
Explanation:
The number of watersheds in your model depends on how your model is designed. A watershed is an area of land that drains all the streams and rainfall into a common outlet such as the outflow of a reservoir, mouth of a bay, or any point along a stream channel.
To determine the number of watersheds in your model, you need to identify the points at which water flows together, and designate those as common outlets. Each individual area that drains into one of these common outlets comprises a separate watershed. For example, if your model includes three rivers which all converge at a single point, you would have three watersheds.
This definition also implies that all of the land on earth can be divided into watersheds. The boundaries of a watershed are determined by the topography (i.e., the hills and valleys) that guides the direction of water flow.
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and other microbes can be used to "clean up" an oil spill by breaking down oil into carbon dioxide and water. Two samples isolated from the Deepwater Horizon leak in the Gulf of Mexico were labeled A and B. The DNA of each was isolated and the percent thymine measured in each sample. Sample A contains 19.3 % thymine and sample B contains 29.7 % thymine. Assume the organisms contain normal double‑stranded DNA and predict the composition of the other bases.
Answer:
Explanation:
"Bacteria and other microbes can be used to "clean up" an oil spill by breaking down oil into carbon dioxide and water. Two samples isolated from the Deepwater Horizon leak in the Gulf of Mexico were labeled A and B. The DNA of each was isolated and the percent thymine measured in each sample. Sample A contains 19.3 % thymine and sample B contains 29.7 % thymine. Assume the organisms contain normal double‑stranded DNA and predict the composition of the other bases."
DNA is made up of four bases: Adenine (A), Thymine (T), Cytosine (C) and Guanine (G).
Adenine and Thymine are paired and are joined by two hydrogen bonds: A-T.Cytosine and Guanine are paired and are joined by three hydrogen bonds: C-G.If Sample A contains 19.3% thymine, therefore it contains the same percentage of adenine. Added together 19.3+19.3=38.6%.
Since A-T is 38.6%, therefore C-G is 100 - 38.6% = 61.4%
Dividing 61.4% in half, C and G are 30.7% each.
In summary, for Sample A:
Adenine = 19.3%
Thymine = 19.3%
Cytosine = 30.7%
Guanine = 30.7%
For Sample B, since thymine is 29.7%, adenine is also 29.7%
So A-T is 29.7 +29.7 = 59.4%
C-G = 100 - 59.4 = 40.6%
Dividing 40.6% in half, C and G are 20.3% each
In summary, for Sample B:
Adenine = 29.7%
Thymine = 29.7%
Cytosine = 20.3%
Guanine = 20.3%
1.) Which processes produce carbon dioxide as a waste product?
a.) the Krebs cycle and the electron transport chain
b.) ethyl alcohol fermentation and the Krebs cycle
c.) ethyl alcohol fermentation and lactic acid fermentation
d.) lactic acid fermentation and the Krebs cycle
2.) The bonds between the phosphate groups in ATP have large amounts of chemical _____ energy.
a.) potential
b.) kinetic
c.) low
d.) high
3.) Where does the sour taste come from in foods such as cheese and yogurt?
a.) ethyl alcohol produced by fermentation
b.) lactic acid produced by fermentation
c.) ATP produced by the Krebs cycle
d.) carbon dioxide produced by cellular respiration
4.) What molecule is used by the enzyme ATP synthase to form ATP?
a.) FADH 2
b.) NADH
c.) ATP
d.) ADP
5.) What conditions cause cells to break down fat molecules?
a.) limiting calorie intake and increasing energy needs
b.) increasing energy needs and increasing calorie intake
c.) decreasing energy needs and increasing calorie intake
d.) limiting calorie intake and limiting oxygen exposure
6.) Why is ATP an example of chemical potential energy?
a.) It stores energy until a cell needs it.
b.) It drives reactions to make glucose.
c.) It creates and destroys energy.
d.) It assembles mitochondria.
7.) Which set of pairings correctly matches the process with its conditions?
a.) cellular respiration : aerobic : : fermentation : anaerobic
b.) cellular respiration : anaerobic : : fermentation : aerobic
c.) cellular respiration : anaerobic : : fermentation : anaerobic
d.) cellular respiration : aerobic : : fermentation : aerobic
8.) The purpose of cellular respiration is to enable cells to create and use _____.
a.) oxygen
b.) DNA
c.) carbon dioxide
d.) ATP
9.) How does ADP differ from ATP?
a.) ADP has one more adenine group than ATP.
b.) ADP has one more phosphate group than ATP.
c.) ATP has one more phosphate group than ADP.
d.) ATP has one more adenine group than ADP.
10.) What is involved in redox reactions?
a.) the addition of water to break down food macromolecules
b.) the bonding of ions to form chemical compounds
c.) the transfer of electrons between reactants
d.) the breaking down of water into hydrogen and oxygen atom
I set it for 64 points, so you will receive approximately 32 points.
Please answer as many as you can. Most answers out of the two answerers will become brainliest.
The ATP bonds have potential energy that is stored in it.
The bonds between the phosphate groups in ATP have large amounts of chemical potential energy but after breaking of bonds, this potential energy is converted into kinetic energy which is used to move things.
The sour taste come in foods such as cheese and yogurt from lactic acid produced by fermentation. Sour taste in food is mainly occurs due to the presence of citric, malic, oxalic, and tartaric acids in fruits and lactic acid in yogurt.
Limiting calorie intake and increasing energy needs are the conditions that cause cells to break down fat molecules.
ATP is an example of chemical potential energy because it stores energy until a cell needs it for performing different activities.
Cellular respiration is aerobic means needs oxygen for the generation of energy whereas fermentation is an anaerobic means it occurs in the absence of oxygen.
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A dark-red strain and a white strain of wheat are crossed and produce an intermediate, medium-red F1. When the F1 plants are interbred, an F2 generation is produced in a ratio of 1 dark-red : 4 medium-dark-red : 6 medium-red : 4 light-red : 1 white Further crosses reveal that the dark-red and white F2 plants are true breeding.
a. Based on the ratios in the F2 population, how many genes are involved in the production of color?
b. How many additive alleles are needed to produce each possible phenotype?
c. Assign symbols to these alleles and list possible genotypes that give rise to the medium red and light red phenotypes.
d. Predict the outcome of the F1 and F2 generations in a cross between a true-breeding medium red plant and a white plant.
a). 2 genes are involved in production of colour in F2 generation.
b). 2 possible alleles for each phenotype
c).Rr (medium red), rr light red
d) F1 generation 1:2:1 ( 1 light red stain, 2 medium red) and F2 generation 1:1
1 medium red and 1 light red.
Explanation:
F1 generation:
dark red strain X white strain
RR X rr
r r
R rR Rr
R rR Rr
genotype ratio 4:1, all medium red
Cross between F1 generation of true breeding plants
R r
R RR Rr
r Rr rr 1 light red stain, 2 medium red, 1 white genotype ratio 1:2:1
In F2 Generation, F1 plants interbred ie true breeding
F2 generation:
R r
r Rr rr
r Rr rr
It produces 1 medium red and 1 light red plant. genotype ratio 1:1
Here alleles Rr is for medium red and rr is for light red
Additive allele depends on the allele concentration for a phenotype trait to appear.
Final answer:
The ratio of phenotypes in the F2 generation indicates that two genes are involved in the production of color in wheat, with a total of four additive alleles influencing the phenotype. True-breeding medium red (RaRa) crossed with white (rraa) would yield medium-red F1 offspring. F2 would show a ratio of 3 medium-red to 1 white.
Explanation:
The phenotypic ratio of the F2 generation, which is given as 1 dark-red : 4 medium-dark-red : 6 medium-red : 4 light-red : 1 white, suggests the involvement of two genes in color production due to the pattern not matching a simple 3:1 monohybrid cross. It fits a modified dihybrid cross ratio of 1:4:6:4:1, which is reminiscent of a 9:3:3:1 ratio with intermediate forms due to incomplete dominance.
To determine the number of additive alleles needed for each phenotype:
Dark-red: All four additive alleles are present (2 from each gene).
Medium-dark-red: Three additive alleles are present.
Medium-red: Two additive alleles are present.
Light-red: One additive allele is present.
White: No additive alleles are present.
We can assign the symbols R for the allele contributing to red color and r for its absence from one gene, and A for the allele contributing to red color and a for its absence from the second gene.
Thus, possible genotypes for medium red are RaRa or rrAA. For light red, the genotype could be Ra with the other gene being rr or aa, such as Rraa or Aarr.
For a cross between a true-breeding medium red plant (RaRa) and a white plant (rraa), the F1 would all be Rara (medium-red), and the F2 generation would show a 3:1 phenotypic ratio of medium-red (R-) to white (-rr) since the white parental plant can only contribute recessive alleles.
In the 1960s, a population of squirrels was being studied in Alabama and the coat color of the squirrels was found to range from the more common gray color (dominant) to the less common red color (recessive). When they sampled an area, they found 536 gray squirrels and 64 red squirrels. Assuming the population is at Hardy Weinberg's equilibrium, answer the following questions:1. What is the frequency of the homozygous recessive individuals?
Answer: Assuming the population is at Hardy Weinberg's equilibrium, the frequency of the homozygous recessive individuals is 0.107
Explanation: Hardy-Weinberg law provides an equation to relate genotype frequencies and allele frequencies in a randomly mating population. p² + 2pq + q² = 1 where p² = homozygous dominant, q² = homozygous recessive and 2pq = heterozygous.
Also, for two alleles, p and q, p + q = 1
Using these equations and the information provided in the question given, the total number of squirrels is 600.
Grey squirrels frequency, p² = 536/600 = 0.893
Red squirrels frequency, q² = 64/600 = 0.107
Therefore, the frequency of recessive individuals (Red) = 0.107
The frequency of the homozygous recessive individuals in the squirrel population, assuming Hardy-Weinberg equilibrium, is 10.67%, calculated by dividing the number of red squirrels by the total population.
Explanation:To determine the frequency of the homozygous recessive individuals in a squirrel population, we can use the Hardy-Weinberg equation. In this case, the recessive phenotype is represented by the red squirrel coloration. We are given that there are 64 red squirrels, which are the homozygous recessive individuals (rr), out of a total of 600 squirrels. The frequency is the number of homozygous recessive individuals divided by the total population.
Since the population is at Hardy-Weinberg equilibrium, we know that the sum of the genotype frequencies (p² + 2pq + q²) equals 1. In this context, 'p' represents the dominant allele frequency, and 'q' represents the recessive allele frequency. The frequency of the homozygous recessive individuals (q²) equals the number of red squirrels (recessive phenotype) divided by the total population.
Therefore, the frequency of the homozygous recessive squirrels is:
q² = 64 red squirrels / 600 total squirrels = 0.1067 (or 10.67%)
This value represents the frequency of the homozygous recessive individuals in the squirrel population.
In fruit flies, long wings (W) are dominant over short wings (w), and brown pigments (N) are dominant over yellow pigments (n). Each individual possesses two alleles for each trait.
1. If a fly that is homozygous dominant for both traits is crossed with a fly that is homozygous recessive for both traits, what is the predicted genotype of the offspring?
Answer:
WwNn
Explanation:
Long wings (W) are dominant over short wings (w)Brown pigments (N) are dominant over yellow pigments (n)A fly that is homozygous dominant for both traits (WWNN) is crossed with a fly that is homozygous recessive for both traits (wwnn).
All gametes produced by the WWNN individual will be WN, and all gametes produced by the homozygous recessive individual will be wn.
When the gametes from the two parents combine, the zygote will be heterozygous for both genes, with the genotype WwNn.
The offspring from a homozygous dominant fruit fly (WWNN) and a homozygous recessive fly (wwnn) will all have the heterozygous genotype WwNn, displaying long wings and brown pigments.
Explanation:In classical Mendelian genetics, long wings (W) are dominant over short wings (w), and brown pigments (N) are dominant over yellow pigments (n). When a homozygous dominant fruit fly for both traits (WWNN) is crossed with a homozygous recessive fly (wwnn), the resulting genotypes for all the offspring will be heterozygous for both traits (WwNn), expressing the dominant phenotypes—long wings and brown pigments.
The scenario is straightforward as both traits are being considered separately, and the inheritance pattern follows simple Mendelian inheritance, not taking into account potential linkage or sex linkage as in X-linked crosses. Therefore, all offspring produced from this cross will have the same genotype, with one dominant and one recessive allele for each gene, showcasing the principle of uniformity in the F1 generation.
vanadium crystallizes in a body-centered cubic lattice and the density is 5.96g/cm3 what is the unit cell edge length in pm?
Final answer:
The unit cell edge length of vanadium in a body-centered cubic lattice is approximately 303.4 pm.
Explanation:
Vanadium crystallizes in a body-centered cubic (BCC) lattice. In a BCC structure, there are atoms at the eight corners of the unit cell and one atom in the center. The edge length (a) of the unit cell can be calculated using the formula:
a = (4 * radius) / √3
Given that the density of vanadium is 5.96 g/cm3, we can use its molar mass (50.9415 g/mol) and Avogadro's number (6.022 × 10^23 atoms/mol) to calculate the radius of a vanadium atom using the formula:
density = (molar mass * number of atoms) / (volume of unit cell)
By rearranging the formulas and substituting the given values, we can find the unit cell edge length:
a = (√[3 * molar mass * Avogadro's number / (4 * density)]) / 10
Substituting the values gives:
a = (√[3 * 50.9415 * 6.022 *10^23 / (4 * 5.96)]) / 10
Simplifying the expression gives:
a ≈ 3.034 Å
To convert Ångströms (Å) to picometers (pm), multiply by 100:
a ≈ 3.034 * 100 = 303.4 pm
Which of the following statements about apoptosis is false? a. It is an important process in the development of human fingers and toes. b. Despite more than 600 million years of evolutionary divergence, humans and nematodes share similar apoptosis pathways. c. Because apoptosis genes kill cells, natural selection is seldom involved in apoptosis pathways. d. All of the above are true; none is false.
Answer:
C) Because apoptosis genes kill cells, natural selection is seldom involved in apoptosis pathways.
Explanation:
Apoptosis is a natural process taking in the cell which causes the physiological and biochemical changes in the cell which could cause the death of the cell.
The apoptosis is controlled at the genetic level therefore apoptosis is also known as the programmed cell death.
The studies have shown that the process is involved in the development of the finger and the toes in humans and the sequences controlling the process has been conserved during the evolution in a different organism.
This shows that humans and nematode have the same conserved sequence of apoptosis but the natural selection does not control the apoptosis.
Thus, the selected option is the correct answer.
Apoptosis is involved in human development and shared across species like humans and nematodes. It's incorrect to state that natural selection plays no role in apoptosis pathways, as these pathways have evolved to benefit the overall health of the organism.
Explanation:The question asks which statement about apoptosis is false. Let's go through each item:
a) Apoptosis does play a key role in the development of human fingers and toes. During embryological development, apoptosis is meant to eliminate the web-like tissues between individual fingers and toes to form fully separated digits.
b) Indeed, despite the vast evolutionary divergence, humans and nematodes share similar apoptosis pathways.
The false statement here is c) Even though apoptosis does involve killing off cells, natural selection plays a role here as well. It's involved in apoptosis pathways as these pathways have evolved to maintain the health of the organism by removing damaged or unneeded cells and preventing dangerous ones from proliferating.
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Does the DNA support the hypothesis that the coelacanth is the closest living relative to amphibians, such as frogs?
Answer:
According to biologists the coelacanth is NOT the closest living relative to amphibians,
Explanation:
In this modern era of molecular biology there is evidence that the coelacanth and tetrapods are not closely related. While in the other hand, evidences indicated a close relationship between lungfishes and tetrapods. The molecular analysis was based on mitochondrial DNA sequences. I have attached picture of evolutionary relationship.
FIG. 1. Alternative hypotheses of sister group relationships between sarcopterygii and tetrapods.
(A) Lungfish as the sister group of
tetrapods.
(B) Coelacanth as the closest living relative of tetrapods.
(C) Coelacanth and lungfish equally closely related as sister groups of tetrapods.
Reference: Zardoya, R., & Meyer, A. (1996). Evolutionary relationships of the coelacanth, lungfishes, and tetrapods based on the 28S ribosomal RNA gene. Proceedings of the National Academy of Sciences, 93(11), 5449-5454.
Answer:
No, it doesn't support
Explanation:
The DNA based alternative hypothesis shows that the lung fish is actually the closest relative to amphibians rather than the coelacanth.
Geneticists sometimes use the following test for the nullness of an allele in a diploid organism: If the abnormal phenotype seen in a homozygote for the allele is identical to that seen in a heterozygote (where one chromosome carries the allele in question and the homologous chromosome is known to be completely deleted for the gene) then the allele is null. What is the underlying rationale for this test?
Answer:
There will be null activity for a gene within in the deletion, this means if a genotype has similar phenotype. This suggests that mutant allele and the allele with deletion has the same level of activity.
Explanation:
The limitation of such interpretation is that the phenotypes have the enzymatic activity according to a threshold level. This means that the mutant phenotype is visible till the enzymatic activity is lower than a threshold. If the level rises above the threshold the wild type phenotype is observed.
Why do black redstarts exhibit migratory restlessness at night for fewer days than common redstarts?
Answer:
The statistics given has shown that night-migrating birds are driven by autonomous circadian clocks which is made possible by sunset cues. This timekeeping that is the autonomous circadian clocks system is probably the key factor in the overall control of nocturnal songbird migration.
Answer: Blact redstarts are associated with circadian clock. Seasonal melatonin and circadian clock lead to migratory nocturnal restlessness. The birds that exhibit migratory restlessness at night is due to high levels of melatonin at nights because melatonin are high in the night.
Explanation:
Migratory restlessness is the locomotive performance that birds engaged in before migration. It is common in birds with circadian rhythm.
The modern synthesis brought together Darwin's theory of evolution with Mendelian genetics. Why was this so important?
Answer:
Option C
Explanation:
Options for the question are
a. It demonstrated that nothing in biology makes sense except in the light of evolution.
b. It demonstrated that species arise from other species.
c. It provided a quantifiable mechanism to explain gradual evolutionary change.
d. It was the first time that change in biological organisms was observed.
e. It was not very important to evolutionary biology.
Solution -
The term modern synthesis by coined by Julian Huxley and the goal of this synthesis was to understand and determine how genetics bring evolutionary changes in a population and with this objective it combined the Darwin’s theory of evolution and Mendel’s work on heredity. Later on scientist Dobzhansky under this synthesis found that genetic mutation causes variation through the process of natural selection and hence lead to evolutionary changes in a population even if they are isolated for a long time.
Hence, option C is correct
If you were to set up a PCR reaction (in vitro DNA synthesis) with a DNA template, primers,DNA polymerase, dATP, dGTP, dCTP, dTTP and a small amount of ddATP, what would be the result? If you were to set up a PCR reaction (in vitro DNA synthesis) with a DNA template, primers,DNA polymerase, dATP, dGTP, dCTP, dTTP and a small amount of ddATP, what would be the result? DNA synthesis would happen normally. All DNA molecules produced would be the same length as the template. DNA synthesis might be terminated after the addition of any adenine base (at random). DNA molecules of many different lengths would be produced. DNA synthesis would be terminated after the first adenine base is added. All DNA molecules produced would the same length
Answer:
DNA synthesis might be terminated after the addition of any adenine base (at random). DNA molecules of many different lengths would be produced.
Explanation:
Polymerase chain reaction may be defined as the molecular process of increasing the amount of DNA upto several times. Three important steps in PCR - denaturation, annealing and extension.
As given in the question, dd ATP ( dideoxy adenosine triphosphate) is added to the PCR reaction. ddATP lacks the hydroxyl group at 3' position of the sugar. This means the reaction will be terminated after this ddATP as no further nucleotide will be added. This will also leads to the genereation of the different length of DNA fragments as ddATP will randomly be inserted in the DNA molecule.
Thus, the correct answer is option (3) and (4).
Explain why evolutionary biologists monitor selec- tively neutral polymorphisms as molecular clocks.
Answer:
Because of their property of preciseness and rhythmic repetitions like a normal clock sequence...
Explanation:
Evolutionary biologist use these neutral polymorphisms as molecular clock because of their gradual accumulation of mutations that remain on changing gradually in a uniform sequence overlarge number of generations. These changing sequences are highly precise over and over, that's why these are also termed as neutral mutations.
Plants and animals die without air. Why? Which gases do plants and animals inhale and exhale? What are the role of these gases in plants and animals? (Note: Air is composed of 78% nitrogen, 21% oxygen, 0.9% argon, 0.03% carbon dioxide, and other minor gases).
Answer:
Plants and animals both are living organisms that are directly dependent on the air. The air is comprised of various gases with definite proportions such as 78% of nitrogen, 21% of O₂, 0.9% of argon, 0.03% of CO₂, and other minor gases.
Oxygen (O₂) is the main gas that is essential for life to exist. Without this gas, no organisms can survive.
The organisms inhale oxygen (O₂) gas and exhale carbon dioxide (CO₂) gas.
These gases play an important role in the lives of plants and animals as it helps in carrying out the process of respiration. This process is essential in order to generate energy in the body of the organisms where the food particles (commonly known as sugar) are disintegrated by the cells. This is how an organism respire by inhaling O₂ gas and exhaling CO₂ gas.
Plants and animals die without air because they need to interchange oxygen and carbon dioxide with their surrounding environment to carry out cellular respiration (plants and animals) and photosynthesis (only plants).
Cellular respiration refers to the metabolic process by which aerobic cells (both plant and animal cells) produce energy in the form of ATP by using the energy stored in the chemical bonds of foods.During cellular respiration, oxygen is used as a reactant, whereas carbon dioxide is eliminated as a waste product.On the other hand, photosynthesis refers to the metabolic reactions by which plants use sunlight and carbon dioxide from the air in order to synthesize simple carbohydrates (i.e., sugars) and release oxygen.Plants can absorb nitrogen from the soil, whereas animals obtain nitrogen by eating plants (herbivores) and animals (carnivores).In conclusion, plants and animals die without air because they need to interchange oxygen and carbon dioxide with their surrounding environment to carry out cellular respiration (plants and animals) and photosynthesis (only plants).
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Individuals III-3 and III-4 are expecting their first child when they become aware that they both have a family history of this recessive condition. As their genetic counselor, you can calculate the probability that they are carriers and that their child will be affected with the condition.
1.) The probability that III- 3 is a carrier (Rr) =
2.) The probability that III - 4 is a carrier (Rr) =
3.) The probability that IV - 1 will be affected (rr) =
Options are 1/4, 1/2, 1/16, 1/3, 3/4, 2/3, 1/12, 1/6
Final answer:
Given a family history of a recessive condition, the probabilities are approximated as 1/2 for each parent (III-3 and III-4) being carriers (Rr) and 1/4 for their child (IV-1) being affected (rr), based on genetic inheritance patterns.
Explanation:
The question revolves around determining the probability of carriers and affected individuals in a family with a recessive condition, specifically focusing on individuals III-3, III-4, and their potential child, IV-1. Given the nature of recessive conditions and the information provided, calculating these probabilities involves understanding genetic inheritance patterns.
The probability that III-3 is a carrier (Rr) depends on the exact family history not detailed here, but following general rules of recessive inheritance, if a direct parent is affected or a carrier, the probability could range up to 1/2.
Similarly, for III-4, without explicit information about the parents, a likely assumption would also be 1/2, as they have a family history of the condition, suggesting a chance of being a carrier.
The probability that their child (IV-1) will be affected (rr) if both parents are carriers (Rr) follows the Punnett square rule, resulting in a 1/4 chance. This is because each parent has a 50% chance of passing on the recessive allele. When both do, the child will express the recessive condition.
Therefore, the potential probabilities are 1/2 for each parent being a carrier and 1/4 for their child being affected by the recessive condition.
Phytoplankton 120,000 kJ/m2
Copepods 7,514 kJ/m2
Small fish 383 kJ/m2
Marine birds 14 kJ/m2
a. Calculate the efficiency of energy transfer to the copepods.
b. Calculate the efficiency of energy transfer from the secondary consumer to marine birds.
Answer:
a. 6.26%
b. 3.65%
Explanation:
A food chain is a series of event showing how organism feed on one another, it also shows the transfer of energy in an ecosystem.
From the question; we can have a food chain showing the transfer of energy right from the producer to the tertiary consumer
(Producer) Primary Sedcondary Tertiary
consumer (1°) consumer (2°) consumer (3°)
Phytoplankton ⇒ Copepods ⇒ small fish ⇒ Marine birds
120,000 kJ/m2 7,514 kJ/m2 383 kJ/m2 14 kJ/m2
W X Y Z
Efficiency of energy transfer is given as: [tex]\frac{EnergyAvaliableAfterTheTransfer}{EnergyAvailableBeforeTheTransfer}*100%[/tex]
The first question (a) says, Calculate the efficiency of energy transfer to the copepods.
i.e efficiency of energy transfer from phytoplankton to copepods =[tex]\frac{X}{W}*100%[/tex]
=[tex]\frac{7514}{120000}*100[/tex]
= 6.25%
b) Calculate the efficiency of energy transfer from the secondary consumer to marine birds.
i.e efficiency of energy transfer from small fish to marine birds = [tex]\frac{Z}{Y} *100[/tex]
=[tex]\frac{14}{383} *100[/tex]
=3.65%
In this environment, the color of Sea Lampreys is an example of: Select one: a. A consequence of non-random mating. b. Natural selection. c. A heterozygous advantage. d. An adaptation.
Answer:
Option d. An Adaption is correct.
Explanation:
Young Sea Lampreys usually feed on algae and other organisms that live on the bottom of sea. Due to this feeding activity it need to blend in the environment. This results in the adaption due to skin color (darker on top so that predator cannot see them and fading to a lighter colored belly because they move at the bottom).
Starting with a single cell, how long (in hours) will it take for the mass of an E. coli culture to equal that of the Earth? Assume exponential phase and limitless nutrients.
Answer:
43.6 hours, which is less than two days.
Explanation:
To calculate Growth for an exponentially growing populations
Nt = N▪ * 2^n
Where,
N▪= cell number at initial time
Nt = cell number at later time
n = number of generations
Assuming exponential phase and limitless nutrients
How long until E.coli conquers the earth?
Given,
1 doubling = 20 min = 0.33hr
N▪= Mass = 9.5 x 10^-13 g/bacterium
Nt= Mass = 5.9 x 10^27 g/Earth
Nt = N▪ * 2^n
5.9 x 10^27 = 9.5 x 10^-13 * 2^N
nlog(5.9 x 10^27) = log(9.5 x 10^-13) + nlog(2)
27.7 = -12.0 + n(0.3)
27.7 + 12.0 = n(0.3)
39.7 = n(0.3)
132 = n
Therefore,
132 generations * 0.33 hour/generation = 43.6 hours
43.6 hours is less than two days.
Our answer for a single cell, it will take less than two days for the mass of an E. coli culture to equal that of the Earth on assuming exponential phase and limitless nutrients.
Cross 1 Progeny:38 two-lobed, red18 two-lobed, yellow38 multilobed, red18 multilobed, yellowCross 2 Progeny:14 two-lobed, red14 two-lobed, yellow14 multilobed, red14 multilobed, yellowIn tomato plants, the production of red fruit color is under the control of an allele R. Yellow tomatoes are rr. The dominant phenotype for fruit shape is under the control of an allele T, which produces two lobes. Multilobed fruit, the recessive phenotype, have the genotype tt. Two different crosses are made between parental plants of unknown genotype and phenotype. Use the progeny phenotype ratios to determine the genotypes and phenotypes of each parent.PART A: For cross 1, determine two appropriate genotypes for both parents.a) Rrtt × Rrttb) Rrtt × rrTtc) RrTt×Rrttd) Rrtt × RrTt OR rrTt × RrTtPart B: For cross 1, determine two appropriate phenotypes for both parents.a) yellow fruit, two lobes AND red fruit, multiple lobesb) red fruit, two lobes AND red fruit, two lobesc) red fruit, two lobes AND red fruit, multiple lobesd) red fruit, two lobes AND yellow fruit, two lobesPART C: For cross 2, determine two appropriate genotypes for both parents.a) RrTt × Rrttb) RrTt × rrttc) RrTt × rrTtd) RrTt × rrtt OR Rrtt × rrTt
Question reformatted
In tomato plants, the production of red fruit color is under the control of an allele R. Yellow tomatoes are rr. The dominant phenotype for fruit shape is under the control of an allele T, which produces two lobes. Multilobed fruit, the recessive phenotype, have the genotype tt. Two different crosses are made between parental plants of unknown genotype and phenotype. Use the progeny phenotype ratios to determine the genotypes and phenotypes of each parent.
Cross 1 Progeny: 38 two-lobed red, 18 two-lobed yellow, 38 multilobed red, 18 multilobed yellow.
Cross 2 Progeny: 14 two-lobed, red 14 two-lobed, yellow 14 multilobed, red 14 multilobed, yellow
Part AFor cross 1, determine two appropriate genotypes for both parents.
a) Rrtt × Rrtt
b) Rrtt × rrTt
c) RrTt×Rrtt
d) Rrtt × RrTt OR rrTt × RrTt
Part BFor cross 1, determine two appropriate phenotypes for both parents.
a) yellow fruit, two lobes AND red fruit, multiple lobes
b) red fruit, two lobes AND red fruit, two lobes
c) red fruit, two lobes AND red fruit, multiple lobes
d) red fruit, two lobes AND yellow fruit, two lobes
Part CFor cross 2, determine two appropriate genotypes for both parents.
a) RrTt × Rrtt
b) RrTt × rrtt
c) RrTt × rrTt
d) RrTt × rrtt OR Rrtt × rrTt
Answer:
Part A - C
Part B - C
Part C - D
Explanation:
Part AThe genotype for two lobed red must be either RRTT, RrTT, RRTt or RrTt, as these are both dominant traits
The genotype for two lobed yellow must be rrTt or rrTT, as yellow is a recessive trait but two lobed is dominant.
The genotype for multilobed red must be Rrtt or RRtt, as multilobed is recessive but red is dominant
The genotype for multilobed yellow must be rrtt, as both these traits are recessive.
The answer cannot be a) as we have multilobed fruit which would require a T allele.
For a dihybrid cross between two heterozygous individuals (i.e. both RrTt) gives the expected ratio of 9:3:3:1, a classic Mendelian ratio for this type of cross. That is not the case for this cross, as there are double the amount of multilobed yellow than we would expected, and half the amount of two lobed red. This suggests one of the parents is homozygous for the t allele, but that they are both heterozygous for the R/r allele. Therefore, we can first check the ratios of RrTt x Rrtt (answer c) by a punnett square (see attached).
The possible gametes are RT, rT, Rt, rt for one parent (RrTt), and RT, Rt and rt for the other parent (Rrtt). This gives us the correct progeny.
If you ever struggle with these questions, just draw out all the possible punnett squares!
Part BWe have determined that the parental genotypes are RrTt x Rrtt. This means the parental phenotypes are Red two-lobed and red multi-lobed, corresponding to answer C.
Part CThe second cross has a ratio of 1:1:1:1. This gives the clue that the gametes are all present in equal numbers (i.e. each parent is heterozygous for one trait and homozygous for the other), OR that one parent is heterozygous for both and one is homozygous to both. This points to option d.
Only one species of moth, Xanthopan morgani, is known to have a tongue long enough to reach the nectar in the Madagascar orchid Angraecum sesquipedale.
Would the orchid be more likely to reproduce if, through many generations, its nectaries became shorter so that other insect species were able to serve as pollinators? (Select all that apply.)a.Yes. If more insect species are able to use the orchid for food, then the orchid is more likely to reproduce.b.Yes. We can predict that the nectaries of these orchids will tend to shorten enough that other pollinators can also feed on them.c.No. If the nectaries were shorter, then the moth Xanthopan morgani would be able to feed without rubbing against the pollen.d.No. If the nectaries were shorter, then insect species that use other flowers as food sources would also drink its nectar, and it would be less likely these insects would visit another orchid of the same species while carrying its pollen.e.All of the above are plausible. It is impossible to predict.
Answer: e.All of the above are plausible. It is impossible to predict.
Explanation:
The long tongue of moth Xanthopan morgani is able to derive the nectar from the orchid. If through many generations the nectaries become shorter the moth may not be able to derive the nectar this may facilitate the other insect species to derive the nectar and pollination.
If more insect species will able to use the orchid for nectar then obviously the orchid is more likely to reproduce due to pollination. The nectaries may get even shorter that the nectar will readily available to the other species of insects. This may also interrupt the pollination of other species of orchids as Madagascar orchid is a source of nectar which will attract many pollinators also those were specific to the other orchid species.
All conditions are plausible. But several generations of evolution of the Madagascar orchid is required to be observed to predict the association of insects with the orchid.
Shorter nectaries in the orchid would increase the likelihood of other insect species serving as pollinators, but it wouldn't guarantee that the moth Xanthopan morgani can feed without rubbing against the pollen. This would not deter other insect species from visiting other orchids of the same species while carrying its pollen.
B and D are the correct answers.
Explanation:B and D are the correct answers.
If the nectaries of the orchid became shorter, it would allow other insect species to serve as pollinators. This would increase the likelihood of reproduction for the orchid as more insects would be able to access the nectar and potentially transfer pollen.
However, it is incorrect to select answer choices A and C. While more insect species being able to use the orchid for food increases the likelihood of reproduction, the reduction in nectary length would not guarantee that the moth Xanthopan morgani can feed without rubbing against the pollen. Furthermore, shorter nectaries would not necessarily deter other insect species from drinking the nectar and visiting other orchids of the same species while carrying its pollen.
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Rocks form in horizontal layers. However, as shown along mountainsides, rock layers can become twisted or bent.
Answer:
The earth is extremely old,and earth processes acted gradually to twist or bend rocks.
Explanation:
The transformation takes place through many years as the molten rock was pushed upward and sediment form into the rock that was lifted above sea level by the force generated by uprising rocks.The changes are very little and gradually takes place which gives rise to the formation of rocks.
Homeotic genes contain a homeobox sequence that is highly conserved among very diversespecies. The homeobox is the code for that domain of a protein that binds to DNA in aregulatory developmental process. Which of the following would you then expect?A) That homeotic genes are selectively expressed over developmental time.B) That a homeobox containing gene has to be a developmental regulator.C) That homeoboxes cannot be expressed in non homeotic genes.D) That all organisms must have homeotic genes.E) That all organisms must have homeobox containing genes.
Answer:
wdawdsawdsaw
Explanation:
414w141432we
Explain the significance of complementary base pairing in the conservation of the base sequence of DNA.
Assuming a typical monohybrid cross in which one allele is completely dominant to the other, what phenotypic ratio is expected if the F1's are crossed?
Answer:
Assuming the dominant allele is represented as A, and the genotype as AA and the recessive as a, and genotype as aa; then the F1 will produce the offispring. Aa, Aa, Aa,Aa in ratio: 1:1:1:1:1
This shows the dominance of allele A.
However if two of the F1 generation are crossed then:
The F2 is AA,Aa,Aa,aa the phenotypic ratio is
3 ; 1
While the Genotypic ratio is ratio;
1AA : 2Aa Aa; 1aa(1 ;2;1)
Explanation:
In a typical monohybrid cross in which one allele is dominant to the other, the expected phenotypic ratio when F1 generation is crossed is 3:1. This means that 3 out of 4 offsprings will express the dominant phenotype, while one will express the recessive phenotype.
Explanation:In a typical monohybrid cross where one allele is completely dominant to the other, the F1 generation would be heterozygous - meaning they carry one each of the dominant and recessive alleles. When these are crossed, the Mendelian genetics laws predict that there will be a phenotypic ratio of 3:1. This means that 3 out of 4 offsprings are expected to express the dominant phenotype, while 1 out of 4 is expected to express the recessive phenotype. For instance, in a cross between two purple-flowered pea plants (Pp) where purple color (P) is dominant over white (p), the expected phenotypic ratio in the F2 generation would be 3 purple-flowered to 1 white-flowered.
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In a study of black guinea pigs and white guinea pigs, 100 black animals were crossed with 100 white animals and each cross was carried to an f2 generation. In 94 of the crosses, all the F1 offspring were black and an F2 ratio of 3:1 (black:white) was obtained.In the other 6 cases half of the F1 animals were black and the other half were white. Why? Predict the results of crossing the black and white guinea pigs from the 6 exceptional cases.
In genetics, the color of guinea pigs is determined by the presence or absence of a dominant allele for black coat color. The F2 ratio of 3:1 (black:white) suggests that black coat color is dominant. In the exceptional cases, the black guinea pigs were homozygous recessive and the white guinea pigs were heterozygous.
Explanation:In genetics, the color of guinea pigs is determined by the presence or absence of a dominant allele for black coat color. Since all the F1 offspring were black in 94 of the crosses, this suggests that black coat color is dominant. The F2 ratio of 3:1 (black:white) indicates that the black guinea pigs were heterozygous, and the white guinea pigs were homozygous recessive.
In the 6 exceptional cases where half of the F1 animals were black and the other half were white, it suggests that the black guinea pigs were homozygous recessive and the white guinea pigs were heterozygous. When these guinea pigs are crossed, the expected result would be a ratio of 1:1 (black:white) in the F2 generation.
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You plan to expose your chlamydomonas culture to 100 nM colchicine to inhibit new protein synthesis. You need to treat 1 x 108cells. The density of your culture is 5 x 107 cells/ml. The molecular weight of colchicine is 399.44. Explain what you need to do. Show your calculations.
Answer:
mass(g) of colchicine = 3.99 × 10⁻⁵g
Explanation:
Given that;
the number of moles colchicine = 100 nM = 100 × 10⁻⁹M
Density of chlamydomonas culture = 5 × 10⁷ cells/mL
∴ In 1mL of chlamydomonas culture there are 5 × 10⁷ cells present.
To decide the number of one cell, we need to use [tex]\frac{1}{5*10^7}[/tex] mL of the cellulose
However, 1 × 10⁸ cells will be present in [tex]1*10^8*\frac{1}{5*10^7}[/tex] mL , which in turn give us;
[tex]\frac{10^8}{5*10^7}[/tex]mL
Afterwards, to get the required 1 × 10⁸ cells, 2mL(molarity, since molarity= no of moles/litre) has to be taken
If colchicine has to be treated, we need to determine the mass of colchicine that is required in the process as well;
since, the number of moles colchicine = 100 nM = 100 × 10⁻⁹M
And, the given molecular weight = 399.44;
we can determine the mass of colchicine as;
∴ [tex]numberofmoles = \frac{mass(g)}{molar mass(g)}[/tex]
substituting the parameters given, we have:
[tex]100*10^{-9}= \frac{mass(g)}{399.4}[/tex]
mass(g) = 399.4 × 100 × 10⁻⁹
= 3.99 × 10⁻⁵g
Hence, the mass of colchicine that is required in the process to make 100 nM dissolve in the in 2mL of the culture in one Litre of water is 3.99 × 10⁻⁵g.
Capillary action is how plants draw moisture from the soil into their roots and stems. Explain the relationship between capillary action and intermolecular forces.
Answer: Intermolecular force is what holds molecules together and capillary action is moving of liquid towards upward into a tube that is capillary. So the Intermolecular forces which takes part in capillary action are; for keeping the molecule attached to tube is the adhesive force and the for keeping the liquid molecule together is cohesive force.
In the plants, mositure from soil is taken up from stem which is tube like and to which molecules have strong adhesion.
Capillary action relies on intermolecular forces, specifically cohesive forces among water molecules and adhesive forces between water and surfaces. These forces enable water to move against gravity in narrow spaces, aiding plant moisture uptake.
Capillary action is a phenomenon that occurs when a liquid, such as water, moves against the force of gravity within a narrow space, like a thin tube or a narrow pore in a solid material.
The relationship between capillary action and intermolecular forces lies in the cohesive and adhesive forces at play.
1. Cohesive Forces: Cohesive forces are the intermolecular forces that cause water molecules to stick to each other.
In a narrow tube or pore, these forces create a concave meniscus, where water molecules are attracted to each other along the walls of the space.
2. Adhesive Forces: Adhesive forces are the intermolecular forces that cause water molecules to be attracted to a solid surface, like the walls of a plant root or stem. These forces pull the water upward against gravity.
The combined effect of cohesive and adhesive forces allows water to climb or be drawn up through small openings, such as the tiny capillaries in plant roots.
This capillary action is essential for plants to transport water and nutrients from the soil to their stems and leaves, enabling their growth and survival.
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