Along with a balanced diet, weight-bearing exercise promotes bone mineral density. Ruben's body-builder diet would be unhealthy for his bones over the long term because it is __________.

Answer:The cell was no longer visible because the image wasn't centered before switching to higher objective of 40X.

Explanation:

While using microscopes, the image will approximately remain in focus if you adjust the focus during change of magnification. Therefore, there is need to always adjust the focus during change in magnification.

If object is not centered before switching to a higher power objective, object will not be visible.

To avoid this, center the object before switching to a higher power objective. This will help you find the object after switching the objective. And it is also important to use fine focus and not coarse focus.

Answer:

When you shift from low power(10x) to high power(40x), the 40X objective lense moves directly over the specimen and this in turns results in the following changes:

•increase in the magnification of a specimen

•decrease in the light intensity which makes the image appears dim

•decrease in the area of field of view, i.e the specimen will appear larger

•decrease in depth of field, i.e. you won't be able to view an entire surface of the specimen.

And the only way to correct this is to shift back to 10X,centre the specimen and then again switch back to 40X

Answer:

The correct answer is: β1  adrenergic receptor activation. Increased in cAMP lead to increased amounts of Na influx (though if channels) and calcium influx of  pacemaker cells. This increases the frequency of APs of the pacemaker and increases the rate of contraction.

Explanation:

cAMP generated in response to β1 adrenergic receptors,results in excitation contraction coupling by initiating PKA and causing phosphorylation of L type Ca2+ channels and ryanodine receptors. This increases the concentration of intracellular Ca2+ ions in atrial cells, ventricular cells and AV pacemaker cells. This increase in firing rate. As a result rate of contraction increases.

Answer:

Red hair, left handed, and blue eyes are recessive traits.

Any trait has its two allele, dominant and recessive. Dominant trait allele if present with the recessive allele, then the phenotype will be of dominant allele.

Suppose A = dominant allele for brown color hair, a = recessive allele for red color hair.

As mentioned above red color hair is recessive in nature. for the recessive traits to show, the alleles should be recessive only.

Aa (brown hair) (parent 1) is crossed with Aa (parent 2) (brown hair). They both have gametes A and a.

Their children will have genotype AA, aa, and Aa. AA = brown color, aa = red color hair, and Aa= brown color hair.

Same case goes with the left hand and blue eyes traits.

So, the girl parents must be having recessive alleles for all the traits, and she must have inherited all the recessive allele only.

Explanation:

First of all, you should ask your friend if any of her parents also have these characteristics. In this you must explain the concept of heredity, which is the genetic phenomenon that allows us to be able to inherit genetic information from our parents, through DNA. That's because each of us has half the DNA of each of our parents, so we have characteristics in common with them.

After explaining heredity, you should talk about your friend's blue eyes. Blue eyes are characterized by a small amount of melanin, which is the brown pigment that colors our eyes, skin and hair. The more melanin, the darker the eyes. What determines the amount of melanin in the eyes is DNA. If your friend's parents have light eyes, it means they have little melanin and that trait was passed to her through DNA.

Red hair, on the other hand, is the result of a genetic mutation that is passed from parents to children through DNA. People with red hair have a mutation in the gene responsible for the production of melanin. This mutation causes the gene to produce very low levels of melanin for the hair, but it produces large amounts of pheomelanin which is a reddish pigment.

However being left-handed is not related to heredity. Many scientists believe that what determines whether a person is left-handed or not is a set of genes that choose the left or right side of the body as dominant. However, other scientists believe that this is actually linked to a matter of skill and custom.

Answer:

Option C is correct,which states that Teixobactin was significantly more effective than the vancomycin at reducing the number of MRSA colonies relative to the control.

Teixobactin reduced the number of MRSA colonies about as effectively as vancomycin relative to the control. Statement 1

The most appropriate statement reflecting the relative effectiveness of vancomycin treatment, teixobactin treatment, and the control is:

Teixobactin reduced the number of MRSA colonies about as effectively as did vancomycin relative to the control.

This means that both vancomycin and teixobactin were similarly effective in reducing the number of MRSA colonies compared to the control group. Therefore, teixobactin was not significantly more or less effective than vancomycin.

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Explanation:

The recent finding of the fossils which showed that Homo erectus and Homo habilis lived side by side in eastern Africa for perhaps half a million years challenged the conventional way that these two species evolved one after the other(H.habilis 1.44 million years old and H.erectus 1.55 million years old)

Answer: Option C) Determining the link between genes and the traits they influence.

Explanation:

First, the field of molecular biology seeks to understand the relationship between genes and proteins. Now, since genes are specific sequences on the DNA that codes for functional proteins, and these proteins make up the various traits physically expressed in living organisms such as skin color, blood group etc.

Then, the specific research goal of Carlita would be determining how genes control the expression of individual traits at the molecular level

Answer: C

Explanation:

Answer:D

Explanation:diffusion involved movement of molecules ( gas,) from high concentration to low concentration without a semipermeable membrane. Whereas movement of water require active transport through specialized xylem tissues.

Answer:Red is 91%, white is 9%

Explanation:3000-270 =2730 red in percentage is 2730/3000 *100/1 =91%

White is 270/3000*100/1= 9%.

Allele frequency or gene frequency is the relative frequency of an allele expressed as a fraction or percentage.

Answer:

The black poodle is true breeding (homozygous) for the black fur colour.

Explanation:

Let the allele for fur colour be represented by B.

Black fur (B) is dominant over white fur (b).

Black poodle (B _) is crossed with white poodle (bb):

   B _   x   bb

Progeny (all black) = Bb, Bb, _b and _b.

Since all the progeny are black, _b = Bb (remember, B is dominant over b)

Hence, B_ is also BB.

The best conclusion is that the black poodle is true breeding (homozygous) for the black fur colour.

Answer:

Explanation: all the puppies in the F1 generation are black because homozygous black (BB) is crossed with a homozygous white(bb) and since the black fur is dormant all the puppies will be black ie heterozygous black (Bb).

Answer: Option C.They obtain energy from nutrients and remove waste products

Explanation:

Homeostasis is the maintenance of a stable internal environment. Hence, cells allow processes within its cytoplasm that produces energy by degrading macromolecules like carbohydrates or lipids while expelling by-products such as gases, salts etc out of its cell membrane.

Answer:C

Explanation: they maintain a balance between the nutrients obtained from food and waste product generated during digestion of food.

Answer: Wash or soak your fruits with salt solution or any solution that contains ascorbic acid such lemon juice, Citric acids as well as solutions containing peptides. They have been proven to inhibit the enzyme (ascorbic acid and salt) and also inhibit the browning effect of quinone (dipeptides, salicylic acids).

Explanation: The discolouration in fruits only occurs when oxidation reaction takes place. With food products, fats could be oxidized leading to rancidity, if the pigments are oxidized, discolouration takes place (majorly browning effect). Oxidation in food reduces the desirability as well as the nutritive value in food.

The browning effect is due to the action of the enzymatic activity of poly-phenol oxidase on polyphenols thereby producing quinones as a by product. Hence to inhibit this activity, your major strategy would be either enzymatic inhibition or reducing the quinone  (by utilising reducing agents capable of converting the undesired quinone to a colourless by product).  

Ascorbic acid (found in Lemons) is mostly used as an antibrowning agent due to its ability to reduce quinones to diphenols (colourless). Most carboxylic acids such as citric acids found in oranges, tartaric acid (in grapes) also act as PPO inhibitors by lowering its pH or by acting as a ligand at the enzyme active site.

Other browning inhibitors include Peptides and this is because of the thiol groups present in the amino acid called Cysteine. Cysteine is known to be involved with a nucleophilic attack on quinones thereby forming a colourless product which in turn attacks the browning effect. Hence any product that contains peptides (e.g honey) can exhibit browning or enzymatic inhibition of PPO.

To slow down fruit oxidation, one can use ascorbic acid by applying lemon juice to inhibit the oxidase enzyme, refrigeration to slow chemical reactions, optimal oxygen packaging, and avoiding metal containers that catalyze oxidation.

To address the schoolwork question regarding the development of methods to slow down fruit oxidation, it is necessary to understand the chemical processes involved. When fruit flesh, such as an apple, is exposed to air, it undergoes enzymatic browning due to the presence of diphenol oxidase, which catalyzes the oxidation of phenols to quinones, resulting in a brown color. The presence of iron compounds in the apple contributes to this reaction.

Several strategies can prevent or slow down this process. Applying lemon juice, rich in ascorbic acid (an antioxidant), to the cut fruit can inhibit enzymatic browning by denaturing the oxidase enzyme. Refrigeration can also slow chemical reactions such as ripening and browning, as the cold temperature reduces enzyme activity. Moreover, storing fruits in special packaging with an optimal oxygen concentration can prevent excessive oxidation without inducing off-flavors. Antioxidants like ascorbic acid, BHA, and BHT are also widely used as preservatives in food to guard against oxidation. Lastly, keeping the fruit away from metal containers that can catalyze oxidation is another preventive measure.

Answer:

1) The statement is false

2) Option A) deoxyribose, phosphate, and a nitrogenous base

Explanation:

1) In semi-conservative DNA replication:

- a parent double-stranded DNA splits in two.

- Each strand is then read by the enzyme, DNA polymerase, to ensure accurate synthesis of a new daughter strand

- the newly synthesized strand contains nucleotides that are complimentary to free nucleotides present in the parent strand.

Thus, because the parent strand is retained in the newly synthesized DNA, DNA replication is described as semi-conservative

2) DNA consists of several repeating units of polydeoxynucleotides where each is made up of a nitrogenous base (Adenine, thymine, cytosine or guanine) linked to

deoxyribose sugar by an N-glycosidic linkage, and then the sugar linked to a phosphate group by phosphoester bond.

Answer: 1. True.

Option A. deoxyribose, phosphate and nitrogenous base.

Explanation:

DNA replicates in semi conservative because when a parent helix replicates, it produce two daughter helixes which contain one of the two helical strand of the parent. During S phase in interphase, DNA is unwind by enzyme helicase and it is duplicated. The two single strands is use as a template to form identical strands.

2. The monomers of DNA are also called nucleotides. They include 5 carbon sugar(deoxyribose, Nitogenous base and phosphate group.

Answer:

Mycorrhiza is a symbiotic association in between the green plants and fungus.

The micorrhiza are located in the roots of the vascular plants. The Green plants performs the process of photosynthesis and the sugars produced are supplied to the Micorrhizas.

The fungus supplies the nutrients, water such as phosphorus that is absorbed from the soil to the plant body.

Answer:Answer:

Mycorrhiza is a symbiotic association in between the green plants and fungus.

The micorrhiza are located in the roots of the vascular plants. The Green plants performs the process of photosynthesis and the sugars produced are supplied to the Micorrhizas.

The fungus supplies the nutrients, water such as phosphorus that is absorbed from the soil to the plant body.

Explanation:

Answer:

Mycorrhiza is a symbiotic association in between the green plants and fungus.

The micorrhiza are located in the roots of the vascular plants. The Green plants performs the process of photosynthesis and the sugars produced are supplied to the Micorrhizas.

The fungus supplies the nutrients, water such as phosphorus that is absorbed from the soil to the plant body.

Answer:

Albumin is produced mainly by the liver. Albumin is the major protein that is acts as the carrier protein for steroids, thyroid hormones and fatty acids in the blood.

Albumin stays in blood vessels as they are too large to move across the capillary walls, in blood vessels by contributing to osmotic pressure or colloid osmotic pressure that maintain water volume. So, the albumin is the protein that is involve primarily on the water reabsorption.

Answer:

A neuron or a nerve cell is a unique cell, which performs an essential function of transmitting the nerve impulse in the form of action potential from one nerve cell to another. The point of communication between two neurons is known as a synaptic junction from where the transmission of a signal between presynaptic axon end and the postsynaptic dendrite occurs.  

The synapse present in the dendrite receives a signal in the form of neurotransmitter from the presynaptic axon. This results in the formation of an action potential that gets transmitted towards the cell body of a neuron. From the cell body, the conduction of impulse takes place via a long tubule composition known as an axon, which constitutes the nodes of Ranvier and reaches the nerve endings or the axon terminals.  

In the terminals, the change in potential results in the opening of the ions channels that discharge neurotransmitters in the form of acetylcholine, which further combines with the ligand-receptor situated on the next dendrite and thus repeats the process. Thus, the action potential travels from the dendrite to the cell body, and from there it travels to the terminals of the axon and eventually towards the ion channels and the ligand-receptor.  

The answer is true because biennialsare mostly two.

True, biennials like carrots and beets produce a small crown of leaves in the first year of growth as they focus on vegetative development and storage of resources, preparing for flowering and seeding in their second year.

True. Biennials are plants that have a two-year lifecycle. In the first year, they focus on vegetative growth, developing a small crown of leaves and storing resources in their roots and other structures. This vegetative phase includes crops such as carrots, beets, and cabbage, where typically only a rosette of basal leaves is produced. During the second year, these plants utilize the stored resources to flower, produce fruit, and set seeds, followed by the end of their lifecycle. The cold period, or winter, plays a crucial role in vernalizing these plants, preparing them for the reproductive phase. Due to the significance of this vegetative growth in the first year, these plants do not need to be re-planted annually like annuals, but they do not survive beyond the second year or season like perennials.

Answer:

B - the same gene, but not necessarily the same DNA base position. They do not show seizures when they are crossed, but show seizures in independent populations.

When they are not in the same position and hence they do not come together to express the  disease.

Thus, the answer is B Explanation

a. If they are in the same DNA base positions,, their offspring might have expressed epileptic seizures.

c. If they are from different genes it would have interfered with the trait.

Final answer:

The two mutant strains of mice most likely have mutations in two different genes, as inferred from the observation that their offspring did not exhibit epileptic seizures, suggesting compensatory heterozygosity.

Explanation:

When a mutant mouse from one strain is crossed with a mutant mouse from another strain and the offspring do not exhibit epileptic seizures, it suggests that the mutations are likely in two different genes. This conclusion comes from the understanding that if the mutations were in the same gene (whether at the same DNA base position or different ones), the offspring would more likely show the dominant phenotype, in this case, seizures - if the seizure trait was a result of a dominant allele.

Since none of the offspring have seizures, this indicates that the mice are likely heterozygous for a recessive seizure allele from each parent, and thus each mutation is compensating for the other in a complementary fashion, which is consistent with the mutations being in two different genes.

Answer:

C. 25%

Explanation:

A bacterial cell gives rise to two daughter cells by one division. If a single bacterial cell enters into cell division, it will form a total of 2^3= 8 cells after three rounds of cell division. The two DNA strands of the parent DNA duplex having N15 will be present in two bacterial cells out of the total 8 cells. This would occur since the process of DNA replication forms a new DNA duplex with one parental strand and one new strand. So, after three round of cell division 25% cells will have DNA with N15 (2/8 x 100= 25%)

Final answer:

After three divisions in 14N medium starting with 15N-labeled DNA, due to semi-conservative replication, 25% of bacterial cells will contain DNA with 15N label per Meselson and Stahl's experiment.

Explanation:

The experiment by Meselson and Stahl with E. coli growing in heavy nitrogen (15N) and then switching to light nitrogen (14N) demonstrates the semi-conservative model of DNA replication. After the first division in 14N medium, each DNA molecule contains one strand with 15N and one with 14N, making it fifty percent 14N. By the principle of semi-conservative replication, after three divisions, there will be one more division than there are strains that have any 15N isotopes. Thus, one quarter of the bacterial cells should contain 15N since those are the ones that did not undergo the last division and still contain one original heavy strand. This makes the answer (C) 25%.

Answer:

The answers are:

1. initial composition of microbial community (controlled variable)

2. age of the mice (controlled variable)

3. change in body fat (dependent variable)

4. diet (independent variable)

5. weight gain (dependent variable)

6. final composition of the microbial community (controlled variable)

Explanation:

Before I go ahead to explain each of the choices of classification, let us define each of the different types of variable.

1. Independent variable: this is a variable that is under the control of the experimenter. It is made up of the factors that are being tested. In our example, the independent variables is; diet. The aim of the experiment is to study the effect of the type of diet on the mice. The diet can also be varied and assigned at will by the experiment.

2. Dependent variable: a dependent variable is one whose outcome is reliant on the effect of the changes in the independent variable. It is the factor to be measured. In our example, the factors that obey these definitions are; change in body fat and weight gain. these two factors depend on the types of diet taken by the mice, hence they are the factors to be measured.

3. Controlled variable: these are variables that are kept constant throughout the experiment to rule out biases, because they produce the same effect on the dependent variable as the independent variable and must be keep constant or uniform in the test groups. in our example, the factors that are controlled include; initial and final compositions of the microbial communities and the age of the mice, because the microbial composition if not uniform among the groups can cause  biases in how the diets are processed, and the age of the mice also must be uniform to avoid age-related differences in the processing of the diets

Answer:

Sympathetic division is responsible for the nervousness, pounding in the chest and the butterfly movement in the stomach while parasympathetic division overest a and digest the nervousness.

Explanation:

The nervousness experienced when someone is about to speak in front of a class is caused by the sympathetic system which have divergent effects as many different effector organs are activated together for that same purpose. I.e More oxygen are inhaled and delivered to skeletal muscle. The respiratory, cardiovascular, and musculoskeletal systems are all activated at the same time causing an unstable reaction to the central nervous system...

On the other hand, the parasymthetic division causes the central nervous system to rest and digest at a very slow rate..

At a point in time the central nervous system triggered an Homeostasis action which posses a balance between the two divisions.I.e symthetic and parasymthetic and then brings about a balance to the body reaction at that same point.

The sympathetic and parasympathetic divisions of the autonomic nervous system work together to help your body react to the stress of giving a speech. The sympathetic division triggers the fight-or-flight response, causing the pounding in your chest and butterflies in your stomach. The parasympathetic division helps to calm your body down after the event.

When facing a nerve-wracking situation like giving a speech, the sympathetic and parasympathetic divisions of the autonomic nervous system work together to help your body react. The sympathetic division is responsible for your body's fight-or-flight response, which increases heart rate and causes the release of adrenaline. This leads to the pounding in your chest and the feeling of butterflies in your stomach.

The parasympathetic division then helps to calm your body down after the stressful event, bringing heart rate and breathing back to normal.

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Answer: it is used primarily in conjunction with surgical anesthesia

Explanation: it is one of the synthetic opioid , it is used intravenously as anesthesia and to treat pain. It is given with a muscle relaxant and a sedative hypnotic. The effect is quick in the body and central nervous system and can last less than 2 hours.

Answer:

It is used primarily in conjunction with surgical anesthesia.

Explanation:

Fentanyl opioid is an injectable or orally applied medication used to treat pain or used in anesthesia. Its effect occurs very fast providing the quick aliveio of the pain the loss of sensation of the anesthetized place, generally in about an hour or two.

Despite having a great medicinal value, this medication is highly dependent and can leave those who consume it quickly addicted and causing serious damage to your body, even leading to death.

This medication should not be used without a doctor's prescription. It can cause drowsiness, nausea, constipation, pressure drop, addiction, respiratory depression, among others.

Answer:

0.09

Explanation:

Total number in population = 1000

Genotype frequencies

Genotype frequency of BB = 500/1000 = 0.5

Genotype frequency of Bb = 250/1000 = 0.25

Genotype frequency of bb = 250/1000 = 0.25

Allele frequencies

Allele frequency of B = BB genotype frequency + half of the Bb genotype frequency = 0.5 + (0.25/2) = 0.625

Allele frequency of b = bb genotype frequency + half of the Bb genotype frequency = 0.25 + (0.25/2) = 0.375

We are told that after selection, the genotype frequency of bb is changed as they become 50% less fit. This means the frequency of bb individuals changes from 250 to 125 individuals (50% reduction).

Now the total number of individuals is 500 + 125 + 250 = 875.

Genotype frequencies

Genotype frequency of BB = 500/875 = 0.57

Genotype frequency of Bb = 250/875 = 0.29

Genotype frequency of bb = 125/875 = 0.14

Allele frequencies

Allele frequency of B = BB genotype frequency + half of the Bb genotype frequency = 0.57 + (0.29/2) = 0.715

Allele frequency of b = bb genotype frequency + half of the Bb genotype frequency = 0.14 + (0.29/2) = 0.285

0.715 - 0.625 = 0.09

Final answer:

The expected change in the frequency of allele B after one generation of selection, given the provided genotypic counts and selection coefficients, is an increase by approximately 0.09.

Explanation:

First, we can calculate the initial frequencies of alleles B and b. Each BB individual contributes two B alleles, and each Bb individual contributes one B allele. The total number of B alleles in the population is (2 × 500) + (1 × 250) = 1250, and similarly, the total for b alleles is (2 × 250) + (1 × 250) = 750. The total number of alleles is 2000. Therefore, the frequency of B (p) is 1250/2000 = 0.625 and the frequency of b (q) is 750/2000 = 0.375.

After selection, the new frequencies of the alleles can be determined. The fitness values are wBB = 1, wBb = 1, and wbb = 0.5. We need to adjust the number of each genotype by its fitness:

The new frequency of B after selection (p') will be the sum of the alleles from BB and Bb genotypes after fitness adjustment over the total adjusted alleles.

The change in the frequency of B after one generation of selection is the difference between the new frequency and the original frequency.

Change in frequency of B = p' - p = 0.7143 - 0.625 = 0.0893 or to two decimal places, 0.09.

Answer:

1. An essential neurotransmitter, which instigates the contraction of muscles by transmitting the nerve impulses towards the neuromuscular junction present at the skeletal muscles is known as acetylcholine. Thus, when the discharging of acetylcholine from the terminals of axons is inhibited by the administration of botulinum toxin, the tendency of the motor neuron to perform the contraction of skeletal muscles also gets prevented.  

2. A neurotoxin generated with the application of botulinum bacterial species is termed as botox. The administration of this botox or botulinum toxin into the superficial facial muscle declines the appearance of muscle lines or deep facial wrinkles, due to this it also has an application as cosmetic medicine.  

The mechanism of the working of this toxin is that it prevents the discharging of the neurotransmitter acetylcholine from the axon terminals of the neuromuscular junction present at the skeletal muscles. It temporarily paralyzes the facial muscles and prevents its contraction, which eventually prevents the appearance of wrinkles.  

Answer: B

Explanation:

If glucose and arsenate are both added to the cell extract, at first glycolysis will start.

In step one of glycolysis, glucose is phosphorylated to glucose-6-phosphate catalyzed by hexokinase which splits the ATP into ADP, and the Pi is added on to the glucose.

In step 3 of glycolysis, fructose-6-phosphate is further phosphorylated to fructose 1,6-bisphosphate. The enzyme is phosphofructokinase. This again involves hydrolysis of another ATP molecule.

A total of two ATP is used.

Step 6 in glycolysis reaction which involves generation of 2 ATP's molecules is inhibited by arsenate. Hence all other glycolytic reaction would not take place. Therefore no ATP is produced and pyruvate is not produced also.

ATP level decreases because ATP is only used up but no ATP is gained from the inhibited pathway. Also the inhibition of the step 6 enzyme cut short the pathway and pyruvate the end product of the pathway is not formed.

The question is incomplete. I have attached the complete question  

Answer:

Ears and starch are linked, glossy isn't linked to either

Explanation:

The deviation from expected frequencies indicates that ears and starch genes are linked  

Answer:

Agreeableness

Explanation: cares about others and contributes to the happiness of others.

Answer:

non argumentive ad will most likely agree

Explanation:

Answer: the correct option is E. (The leukocyte is a major component of the body’s defenses against disease)

Explanation: the leukocyte also called the white blood cells is one of the major types of the hematocytes. There are different types of white blood cells which are classified based on their functions and appearance, they include:

- neutrophils,

- eosinophils,

- basophils,

-lymphocytes, and

- monocytes.

The major function of the white blood cells is to protect the body against disease by phagocytosis of invading microorganisms capable of causing infections.

Final answer:

The correct answer is E. Leukocytes, also known as white blood cells, are a major component of the immune system and they have a nucleus and intracellular organelles, unlike red blood cells. They are larger, less numerous than red blood cells, and can leave the circulation to participate in defending the body against diseases and infections.

Explanation:

Among the statements provided about leukocytes, or white blood cells (WBCs), the correct answer is E. The leukocyte is a major component of the body’s defenses against disease. Leukocytes are indeed significantly different from erythrocytes, or red blood cells, in several ways:

Contrary to erythrocytes, leukocytes do contain a nucleus and other intracellular organelles, making them the only complete cell type among the formed blood elements.

Leukocytes are larger than erythrocytes and are far less numerous in the bloodstream, typically with a count of 5000 to 10,000 leukocytes per μL as compared to millions of red blood cells in the same volume.

While red blood cells remain in the circulatory system, leukocytes often leave the bloodstream to perform their functions, which include protecting the body against infections and cleaning up debris.

There is a variety in leukocyte types, including neutrophils, basophils, eosinophils, lymphocytes, monocytes, and macrophages, each with specific roles in the immune response.

It is these characteristics that enable leukocytes to play a pivotal role in the immune system by fighting off infections and other threats to the body's health.

Answer:

The bacterium Vibrio cholerae is the primary cause of cholera disease that mainly infects the small intestine and primarily leads to the dehydration of the body.

Explanation:

The genetic analysis reveals that the aforementioned causative bacteria surpass the acidic conditions of the stomach and eventually reaches the intestinal wall and attaches to it. This is followed by the production of toxic protein by the bacterium. This protein is taken inside the cell via receptor mediated endocytosis followed by its binding to the host protein Arf6. This binding leads to the production of cAMP that results in the dehydration process. This mechanism leads to excessive accumulation of chloride ion in the intestine preventing the entry of sodium ion.

These two ions are associated with the creation of water-salt environment in the intestine that leads to tremendous diarrhea via the process of osmosis.

Hence, we can say that cholera bacterium affects the individuals at the cellular level and osmosis plays a vital role in the process.

Answer and Explanation:

Complete question:

"What is the expected proportion of progeny with the following broad genotypes each having a distinct phenotype in a typical Mendelian dihybrid cross:A_B_ : A_bb : aaB_ : aabb. Be able to derive the above ratios directly by studying alleles for one gene at a time (individual Punnett) and applying the product rule.  

Example: (1 AA: 2Aa: 1aa) (1BB : 2Bb: 1bb) Suppose you want to know the proportion of A_B_ among the total progeny, you may first estimate which genotypes represent A_ and which genotypes represent B_. Clearly AA and Aa for the first genotype A_. And BB and Bb for the second genotype".

Answer:

In a typical Mendelian dihybrid cross, we have:

Parental)      AaBb      x      AaBb

Gametes) AB  Ab  aB  ab  

                AB  Ab  aB  ab

Punnet Square)        AB       Ab       aB       ab

                      AB    AABB   AABb   AaBB   AaBb

                      Ab   AABb   AAbb   AaBb   Aabb

                      aB    AaBB   AaBB   aaBB   aaBb

                      ab     AaBb    Aabb   aaBb   aabb

F1 phenotypic frequencies)

9/16 A-B-

3/16 aaB-

3/16 A-bb

1/16 aabb

But if you do not want to do the dihybrid cross, you might just perform the cross for each gene and then apply the product rule. This is:

Parental)    Aa     x     Aa

Gametes) A   a         A   a

Punnet Square)     A     a

                      A    AA    Aa

                      a     Aa    aa

F1 genotypic frequencies)

1/4 AA

2/4 Aa

1/4 aa

F1 phenotypic frequencies)

3/4 A-

1/4 aa

Parental)    Bb     x     Bb

Gametes) B   b         B   b

Punnet Square)     B     b

                      B   BB    Bb

                     b    Bb    bb

F1 genotypic frequencies)

1/4 BB

2/4 Bb

1/4 bb

F1 genotypic frequencies)

3/4 B-

1/4 bb

To estimate the progeny phenotypic proportions (A-B-, aaB-, AAB-, aabb), from the genotypic proportions of progeny, you can sum the genotypic frequency of homozygote plus heterozygote, to get the proportions A- and B-.

       Aa=2/4

       A- = AA+Aa= 1/4 + 2/4 = 3/4

       Bb= 2/4

       B- = BB + Bb = 1/4 + 2/4 = 3/4

Then multiply these proportions to get the progeny proportions, like this:

A-B-= (AA+Aa) x (BB + Bb) = 3/4 x 3/4 = 9/16

A-bb = (AA + Aa) x bb = 3/4 x  1/4 = 3/16

aaB- = aa x (BB + Bb) = 1/4 x 3/4 = 3/16

aabb = aa x bb = 1/4 x 1/4 = 1/16

Note: You can get the same results using directly the phenotypic proportions of each cross.                                                    

Answer: Sally

If Harry's negligent act injures Sally, and Susan, while attempting to come to Sally's aid breaks her arm in the process then, Harry is liable for the harm to Sally.

Explanation:

As a mathematical expression, we can say the action of Harry H, is directly proportional to the injury to Sally S; while the mistake of Susan N is directly proportional to injury to Sally S.

So, if H = S and N = S, it is safe to say

H = N = S.

Thus, Harry negligence create room for Susan mistake, which eventually harmed Sally.