Answer:
Chemical Fertilizers
C. Algal blooms followed by eutrophication is the correct one
Stockyard Runoff
Correct D. Increased biological oxygen demand/decreased dissolved oxygen
Soil disturbance
Correct A. Erosion, flooding; clogged shipping channels and harbors
Pesticides
Correct B. Reproductive failure, poisoning, and/or death (pollinators, pets, livestock, predators, children)
Explanation:
For industrial agriculture to be effective and productive today, we have to take into account many factors so our practices function in a good way. When it comes to chemical fertilizers, it is NOT a risk the Increased biological oxygen demand/decreased dissolved oxygen , the correct risk is algal blooms followed by eutrophication. Regarding Stockyard Runoff it is wrong to think the algal blooms followed by eutrophication as risk, the actual risk is the increased biological oxygen demand/decreased dissolved oxygen. The risk in soil disturbance is the erosion, flooding; clogged shipping channels and harbors and thinking about pesticides , they are in risk for reproductive failure, poisoning, and/or death (pollinators, pets, livestock, predators, children) .
In humans, red blood cells have a number of proteins embedded in the cell membrane. One type of protein, the Rh factor, is controlled by a single gene and is either present or missing from the red blood cells. If present, the individual has the Rh+ phenotype. If missing, the individual has the Rh− phenotype. Rh+ is the dominant to Rh−. Suppose that, in the Yoruban population, the frequency of the Rh− phenotype is 0.01.0.01. Using the Hardy–Weinberg equations, calculate the frequency of the Rh+ allele to at least two decimal places.
Answer:
the answer would be that the frequency of the allele Rh + = 0.6
Explanation:
the frequency of the Rh value is incorrect, the value must be expressed in an integer that can have decimals but not a meaningless numerical sequence(0.01.0.01?), however, an exercise is performed taking the frequency value 0.16 as an example for the development of subsequent
we can start from the formula taking into account that the population is in Hardy-Weinberg equilibrium
p2 + 2pq + q2 = 1.0
the above is based on the fact that
p2 is considered as the dominant homozygous ratio
q2 as the proportion of recessive homozygotes
2pq as the proportion of heterozygous individuals
knowing that the Rh phenotype is recessive and has a value of 0.16, we replace obtaining
q2 = 0.16 or q = 0.4
where solving the equation
p + q = 1
p = 1- 0.4 = 0.6
the answer would be that the frequency of the allele Rh + = 0.6
Motor neuron degeneration occurs in several diseases and leads to loss of muscle control. One form of motor neuron degeneration was found to have defects in retrograde transport (backward transport to cell body, in blue below) that were caused by mutations in a gene that codes for a particular protein.
What protein, when mutated would inhibit backward, but not outward. transport along axon microtubules? Choose one
A. myosin
B. kinecin
C. dnein
D. tubulin
Answer: C Dynein
Explanation:
Answers A are incorrect since myosin is an ATPase, that is, it hydrolyzes ATP to form ADP and Pi, a reaction that provides muscle contraction, response b is not correct because kinecin is in charge of anterograde transport, and tubulin is a heterodimer component of microtubules but they do not perform retrograde contraction, dynein instead is an almost exclusive mediator of retrograde contraction
Answer:
the correct option is C (dynaina)
Explanation:
Dynaine is a protein found in the neuronal axon, responsible for the retrograde transport of the neuron.
What does this mean? which is responsible for transporting waste, nutrients, metabolites, etc. retrograde in the axon simulating as a kind of carrier.
Therefore, in the absence of this protein or a mutation of it, the neuron will be seriously complicated in terms of its physiology.
In the axon there are two transport routes that go in opposite directions, one is the retrograde route that is in charge of the named protein, and the other is the anterograde.
Movement to the cell body is called retrograde transport, and movement to the synapse is called antegrade transport.
Retrograde transport moves molecules / organelles away from the axon terminal to the cell body.
name every part of a plant
What are genetically modified foods?
Answer:
genectically modifed foods are also known as gentically engineered foods , or bioengineered foods are foods produced from organisms that have had changes introduced into their DNA using the methods of genetic engineering. Genetic engineering techniques allow for the introduction of new traits as well as greater control over traits when compared to previous methods, such as selective breeding and mutation breeding.[1]
Answer:
genetically modified foods are foods produced from plants or animals whose DNA has been altered through genetic engineering.
Explanation:
What is a whiplike structure that helps a bacterial cell move?
Answer:
Flagellum
Explanation:
A flagellum is a small, whiplike or threadlike structure that helps bacteria, protozoa and other cells to move and swim.
Some plasmids can replicate in several distinct species of bacteria. Frequently these plasmids have transposons carrying several different antibiotic resistance genes. In a hospital that has an outbreak of several species of bacteria each carrying resistance to three drugs (streptomycin, gentamicin, and penicillin), what is the best way to determine whether or not this resistance is due to a single shared plasmid with all three resistance genes?
Answer: The best way to know is to differentiate between types of plasmids whether or not this resistance is due to a single shared plasmid with all three resistance genes.
Explanation:
By way of definition, a plasmid is a small, circular piece of DNA that is different than the chromosomal DNA, which is all the genetic material found in an organism’s chromosomes. It can replicate on their own by using chromosomal DNA. Plasmids are mainly found in bacteria, but can also be found in archaea, multicellular organisms. Plasmids usually carry at least one gene, and many of the genes that plasmids carry are beneficial to their host organisms. Plasmids have separate genes from their hosts, they are not considered to be independent life.
Therefore in a hospital where there has been an outbreak of several species of bacteria, each carrying resistance to three drugs (streptomycin, gentamicin, and penicillin), one of the type of plasmids that shows this resistance is called resistance plasmids or R plasmids.
Resistance or R plasmids contain genes that help a bacterial cell defend against environmental factors such as poisons or antibiotics. Some resistance plasmids can transfer themselves through conjugation. When this happens, a strain of bacteria can become resistant to antibiotics. For example, gonorrhea or tuberculosis infection has become so resistant to a class of antibiotics called quinolones that a new class of antibiotics, called cephalosporins, has started to be in use. The bacteria may even become resistant to these antibiotics within five years. It is important to know that overuse of antibiotics to treat other infections, like urinary tract infections, may lead to the proliferation of drug-resistant strains.
Answer:
Take samples from infected people and grow that bacteria on different selective media. Three different culture plates having one of the antibiotic each can be used to grow these bacteria on, it should be able to grow (allow adequate incubation times). Then prepare a culture plate with all three (streptomycin, gentamicin, and penicillin) antibiotics on it at the same time. If the bacterial colonies are able to grow on this plate as well, one can conclude that the genes for resistance lies on the same plasmid.
Hope that answers the question, have a great day!
How do human diseases caused by bacteria and diseases caused by viruses react to antibiotics?
A. Neither responds to antibiotics.
B. Both respond to antibiotics.
C. Viral diseases respond to antibiotics; bacterial diseases do not.
D. Bacterial diseases respond to antibiotics; viral diseases do not.
Answer:
D
Explanation:
viruses don't react to antibiotics because the target of antibiotics is bacteria and their constituents however viruses react antiviral because their to them.
Human diseases caused by bacteria and diseases caused by viruses react to antibiotics as D. Bacterial diseases respond to antibiotics; viral diseases do not.
Explanation:Antibiotics are substances that kill or inhibit the growth of bacteria. They work by targeting specific structures or processes in bacterial cells, such as cell walls or protein synthesis. Viruses are different from bacteria. They are much smaller and they rely on host cells to reproduce. As a result, antibiotics do not have any effect on viruses.
Antibiotics are effective against bacterial infections, not viral infections. Bacteria are distinct organisms with cell walls, making them vulnerable to antibiotics that target specific cellular processes. Viruses, on the other hand, are not considered living cells and lack these targets. They require antiviral medications, which are different from antibiotics, for treatment.
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9. Glycolytic skeletal muscle fibers...
A. demonstrate higher resistance to fatigue than oxidative fibers.
B. have a smaller diameter than oxidative fibers
C. have a higher density of mitochondria than oxidative fibers
D. have a lower concentration of myoglobin than oxidative fibers
Answer:
The correct answer is D.
Explanation:
Glycolytic skeletal muscle fibers are also called fast glycolytic muscle fibers. The produce Adenosine triphosphate (ATP) very quickly.
ATP refer to the molecule that carries energy inside our cells. It is also known as a high-energy molecule that warehouses energy and supplies the cell with it when it is required.
Because Glycolytic muscle fibers contain larges units of glycogen, they are able to respond very quickly by producing tension fast.
Unlike other skeletal muscle fibres such as the slow and fast oxidative fibres, Glycolytic muscle fibers contain myoglobin and seem to be white in colour. This is because they do not require the anaerobic mechanism to generate the required energy.
Cheers!
Which organism is both a secondary and tertiary
consumer?
O rabbit
O fox
O grasshopper
O shrew
Answer: Fox
Explanation:
Answer:
B) Fox
Explanation:
Suppose a scientist identified two yeast mutants, called huh1 and huh2. The mutants have constitutive expression of the nop operon, which includes the genes nop1 and nop2. One of the mutants is a point mutation in a DNA-binding site, and the other is a deletion of the gene which encodes the DNA-binding protein.
Which term describes the regulatory function of the DNA-binding protein?
The scientist then performs a experiment mating the two haploid yeast together to determine which mutation is in the DNA-binding protein and which is in the dna-binding site. The experimental setup is listed below, wherein a minus indicates a lose-of-function mutation, and a plus indicates the wild type allele.
How will nop1 and nop2 be expressed if huh1 encodes the dna-binding protein and huh2 is a mutation in the binding site? How will nop1 and nop2 be expressed if huh2 encodes the DNA-binding protein and huh1 is a mutation in the binding site?
The DNA-binding protein acts as a repressor for the genes in the nop operon. Mutations in either the protein (a gene deletion mutation) or the binding site will lead to constitutive expression of the genes nop1 and nop2 in the yeast mutants huh1 and huh2 respectively.
Explanation:The regulatory function of the DNA-binding protein is referred as a repressor. In normal condition, this protein binds to a particular region of the DNA, inhibiting the transcription of certain genes, but in mutants, the operon is always active because the repressor is not functioning properly.
When the huh1 encodes the DNA-binding protein, a mutation in it will lead to a malfunctioning protein that won't be able to bind to the DNA and repress the operon, hence, nop1 and nop2 will be expressed constitutively.
If huh2 encodes the DNA-binding protein, lose of this gene (through deletion) means that no DNA-binding protein is produced, and again nop1 and nop2 are constitutively expressed. If huh1 has the mutation in the binding site, nop1 and nop2 will also be constitutively expressed because the repressor can't bind correctly to the mutated site to repress the operon.
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In both scenarios, mutations disrupt repression, leading to constitutive expression of the nop operon, explaining its expression in mutants.
The term that describes the regulatory function of the DNA-binding protein is repressor.
A DNA-binding protein that negatively regulates gene expression by binding to specific DNA sequences is known as a repressor.
When the repressor is bound to the DNA, it prevents the transcription of the genes it regulates. In the case of the nop operon, the wild-type DNA-binding protein would normally repress the expression of nop1 and nop2 unless an inducer is present.
For the experiment, let's consider the two scenarios:
1. If huh1 encodes the DNA-binding protein (repressor) and huh2 is a mutation in the binding site:
- huh1 (repressor gene): - (loss-of-function mutation, no functional repressor produced)
- huh2 (binding site mutation): + (wild-type allele, functional binding site)
In this case, huh1 cannot produce a functional repressor protein due to the loss-of-function mutation. Since the repressor is not present to bind to the DNA, the nop operon will be expressed constitutively, regardless of the presence of a functional binding site in huh2. Therefore, nop1 and nop2 will be expressed.
2. If huh2 encodes the DNA-binding protein (repressor) and huh1 is a mutation in the binding site:
- huh1 (binding site mutation): - (mutation in the binding site, repressor cannot bind)
- huh2 (repressor gene): + (wild-type allele, functional repressor produced)
Here, huh2 produces a functional repressor protein, but it cannot bind to the mutated binding site in huh1. As a result, the repressor cannot exert its regulatory effect, and the nop operon will again be expressed constitutively. Thus, nop1 and nop2 will be expressed.
In both scenarios, the outcome is the same: nop1 and nop2 are expressed constitutively because the repression mechanism is disrupted, either by the absence of a functional repressor or by the inability of the repressor to bind to its target site on the DNA.
This explains the constitutive expression of the nop operon in both mutants.
3. Why are alternative sources of energy better for the environment than burning
coal?
A. It produces more pollution
B. It is renewable
C. It contributes to global warming
D. It leads to the burning of more fossil fuels
Which statement best describes a meteorologist?
A
A person who gives information about the weather
B
A person who studies weather and climate conditions on Ea
C
A person who studies Earth
D
A person who studies meteors in space
Answer:
I believe the answer is B
Explanation:
A meteorologist is a person who studies weather and climate conditions on Earth.
A meteorologist can be defined as an individual with specialized education who uses scientific principles to explain, understand, observe or forecast the earth's atmospheric phenomena and/or how the atmosphere affects the earth and life on the planet.
Activities of a meteorologist include air pollution meteorology, global climate modeling, hydrometeorology, and numerical analysis and forecasting
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Darrell's father used the phrase, "use it or lose it." What neuronal activIties are related to this idea
Answer:
The activities of the prefrontal cortex.
Explanation:
Use it or lose it refers to the idea of "if something is not used or practiced, it will decay or be lost over time.". Neuronal activities that take part in the prefrontal cortex of the brain can relate to this idea. Activities such as decision making, learning languages, communicating, rational thinking etc which are activities that can decrease over time if they are not used.
I hope this answer helps.
The phrase 'use it or lose it' refers to synaptic plasticity, which involves the strengthening or weakening of neural pathways based on their activity or inactivity. This is key for learning, memory, and adaptation.
Explanation:The phrase 'use it or lose it' in the context of neuronal activities is referring to synaptic plasticity, a fundamental concept in neuroscience. This concept suggests that neural pathways in the brain can change over time, strengthen or weaken, based on their usage or inactivity. For example, when we learn new information or skills, the involved neurons form new connections, and these connections can be strengthened by repeated use. However, connections that aren't used may weaken and eventually disappear, a process known as synaptic pruning. This principle is fundamental for learning, memory, and adaptation.
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