ATP synthase complex is found:
a. Thylakoid membrane of the chloroplast
b. Stroma of the chloroplast
c. Matrix of the mitochondria
d. Outer membrane of the mitochondria

Answer:

This results are explained by the fact that these two genes are in the X chromosome and both mutations are recessive.

There is a estimated map distance of 5.76 cM.

Explanation:

First step is to know what are the initial phenotypes, they say "males from a true-breeding stock" that means that they are homozigous for both genes. Also, they say that in F1 generation, all females had the same phenotype but all males had a different phenotype than females, so this suggest a sex-linked inheritance. In the F1 generation, females had a wild type phenotype, but we know these females had to carry the mutant copies of the two genes, so mutant alleles must be recessive.

Therefore, if r is the allele for raspberry-colored eyes and s for sable-colored bodies, the genotypes of parents should be:

- Males with raspberry-colored eyes (wild type for body color):

[tex]X^{rS}Y^{}[/tex]

- Females with sable-colored bodies (wild type for eyes color):

[tex]X^{Rs}X^{Rs}[/tex]

If they are crossed, we obtain the results on the Punnet Square.

If there is not recombination, we expect F2 as in Punnter Square, but in the results, there are two phenotypes that were not expected: wild type males (23) and males with raspberry-colored eyes with sable-colored bodies (27). These two should be recombinants. To calculate the distantance between the two genes, we use:

[tex]Distance=\frac{recombinants}{Total }*100[/tex]

[tex]Distance=\frac{23+27}{868}*100=\frac{50}{868}*100=5.76 cM[/tex]

Therefore, distance between s and r is 5.76 centimorgans.

Answer:

a. malaria

Explanation:

Malaria is caused by a parasite that is transmitted by the bite of infected anopheles mosquitoes, entering the bloodstream, affecting the red blood cells. Therefore, Mosquito Dunks may be a good control of malaria in tropical countries.

On the other hand, mosquito dunk is an inappropriate control method for the other diseases listed, because bubonic plague was transmitted by the fleas of rats, legionellosis is an infectious disease caused by a bacterium (Legionella) that is found mainly in water bodies and toxoplasmosis is caused by a parasite present in undercooked contaminated meat and the feces of cats.

Answer:

d.condiophores is the correct answer.

Explanation:

condiophores is cells or structures are associated with asexual reproduction in fungi

Conidium, a kind of asexual spore-bearing bodies of fungi normally produced at the top of hyphae on specific spore-producing stalks called conidiophores.

The spores get released and detach when it is mature.Then spores germinate into a new hypha and hypha develops into a mycelium.

Thus the Axseual reproduction in Fungi(ascomycetes) occurs by the generation of conidia which are produced on a specialized structure called conidiophores.

Answer:

d. condiophores

Explanation:

As you may know, fungal spores are the main structure for the asexual reproduction of these organisms. These spores are formed in hyphae, but some fungi have special hyphae called conidiophores and their spores called conidia, which are structures for the asexual reproduction of these fungi. For this reason, we can say that, among the options given in the question above, "conidiophores" is the structure that is associated with asexual reproduction in fungi.

Answer:

Generally urine comprises about 95 percent water, 2 percent electrolytes, that is, ions of salts, primarily sulphates, chlorides, potassium, bicarbonates of sodium, and others, 2.6 percent urea, 0.3 percent uric acid, and small quantities of ammonia, creatinine, hormones, some of the pigments, hippuric acid, and allantoin.  

The filtration barrier comprises of the glomerular capillaries fenestrated endothelium, the filtration slits of the podocytes, and the fused basal lamina of the podocytes and the endothelial cells. The barrier allows the entry of water, small molecules, and ions from the bloodstream into the space of Bowman capsule.  

The barrier restricts passing of negatively charged and/or large proteins like albumin. The basal lamina of the filtration barrier comprises three layers. Any small molecules like glucose, water, salt, urea, and amino acids can pass freely into the Bowman's space, however, the cells, large proteins, and platelets do not.  

Answer: True

Explanation:

The kidneys are the two blood purifying and excretory organs. These discharge excess water, waste metabolites, excess sugars and salts from the body. The nephron is the unit which performs the filtration process in each kidney. The bowman's capsule is the cup like structure inside the tubular part of the nephron. It performs the process of filtration of blood so as to form urine.

Answer:

Explanation:

The animal body consists of different types of cells. The cells have arisen from unspecialized cells such as stem cells. The stem cells are the totipotent cells that have the capacity of producing different types of cells. The cells are grouped to perform a particular function and called tissues.

The tissues are an aggregation of cells having a similar structure and function. There are mainly 4 types of tissues epithelial tissue, connective tissue, muscular tissue, nervous tissue.  

The epithelial tissues are also 2 types are single epithelial, compound epithelium. The simple epithelial tissues are single-layered cells, and compound epithelial tissue is multilayered cells.

The simple epithelial cells are squamous epithelium, cuboidal epithelium, columnar epithelium, pseudostratified epithelium.  

Connective tissues: These are binding tissues, connect different tissues with the body parts. These tissues consist of cellular parts and ground substances. The connective tissues are 3 types - connective tissue proper, skeletal tissues (bone and cartilage), vascular (blood and lymph).

Muscular tissue :  

These are the specialized tissues meant for contraction and relaxation. Muscular tissue contains 2 contractile tissues - actin and myosin. Muscular tissue is types - striated muscle, smooth muscle, and cardiac muscle.

Nervous tissue: These are highly excitable cells, carry impulse. These include the neurons. Nervous tissues arise from the ectoderm.

Answer:

D

Explanation:

Through the process of photosynthesis, CO₂ and H₂O are converted into glucose and O₂. Through a series of reactions, there are high energy bonds within glucose, that when broken down can release a lot of energy.

When glucose is broken down, ADP is converted into ATP, which can be used to supply other reactions with energy.

Also, another indirect product of photosynthesis is the production of NADPH from NADP⁺. That energy contained in that bond to hydrogen can be used in other reactions in the Calvin cycle.

Final answer:

The light reactions of photosynthesis produce ATP and NADPH, which are then used in the Calvin cycle to synthesize glucose from carbon dioxide. Option D is correct.

Explanation:

The light reactions of photosynthesis are responsible for converting light energy into chemical energy in the form of two key molecules: ATP and NADPH. These reactions occur in the thylakoid membranes of chloroplasts. ATP is adenosine triphosphate, a molecule that stores and transfers energy within cells, while NADPH is a reduced form of nicotinamide adenine dinucleotide phosphate, which acts as a reducing agent transferring electrons in reactions.

The Calvin cycle, also known as the light-independent reactions, uses the ATP and NADPH produced from the light-dependent reactions to fix carbon dioxide (CO2) and synthesize glucose. Therefore, the light reactions supply the Calvin cycle with ATP and NADPH, making option d. ATP and NADPH correct.

Answer:

Anterior pituitary:

The anterior pituitary has been originated from the Rathke's pouch. Several  different hormones are released  from the anterior pituitary. The hormones of anterior pituitary is synthesized in the anterior pituitary. The blood is supplied by the superior hypophyseal nerves. Both the releasing and inhibitory hormones controlled the anterior pituitary.

Posterior pituitary:

Posterior pituitary has been originated by the hypothalamic neural tissue. Only two hormones are released from the posterior pituitary. The hormones are synthesized in the hypothalamus and released by the posterior pituitary. The blood is supplied by the inferior hypophyseal nerves. The posterior pituitary is controlled by the neural signals.

Answer:

United States (US) customary units is a system of measurement that is used in the United States of America.

International System of Units is the latest most widely used system of measurement. It is abbreviated as SI units.

Gallon (gal): It is a US customary unit used for measuring volume.

Mile (mi): It is a US customary unit used for measuring length.

Meter (m) : It is the SI unit used of length.

Pound (lb): It is a US customary unit used for measuring mass.

Kilogram (kg): It is the SI unit of mass.

Degrees Fahrenheit (‎°F)  : It is a US customary unit used for measuring temperatures.

Kelvin (K): It is the SI unit of temperature.

Answer:

True.

Explanation:

Anabolic steroids may be defined as the hormones that are taken in the forms of pill or can be directly injected into the body. The muscle mass of the body can be increased by the anabolic steroids.

Anabolic steroids can have negative effects on both the male and females. The anabolic steroids effects on female causes irregular menstrual cycle, moustache and the development of broad shoulders.

Thus, the answer is true.

Answer:

d. Helper T cells (CD4+)

Explanation:

There are two kinds of immune responses, innate and adaptative (humoral and cell-mediated):

Cell-mediated immunity (CMI) refers to protective mechanisms that are not characterized by antibody, this kind of immunity is responsible for detecting and destroying intracellular pathogens, tumor cells and delayed-type hypersensitivity reactions. This CMI is mediated by lymphocytes T, T helpers identifying endogenous antigens and stimulating Killer cytotoxic (CD8+) T cells that liberate perforating enzymes into the infected cells causing lysis.

Humoral immunity describes the kind of immunity in which antibodies are produced by B lymphocytes to target exogenous antigens. In this kind of response Helper T cells also play a role secreting cytokines to activate the appropriate B lymphocyte.

Hope you find this information useful! good luck!

Answer:

Helper T cells (CD4+)

Explanation:

In the case of hummoral immunity, Helper T cells help in the differentiation of B cells into plasma B cells . The plasma B cells are then involved in the production of antibodies for specific kind of antigens. In the case of cell-mediated immunity helper T cells are involved in releasing cytokines and help differentiate the T cells into cytotoxic T cells. In the case of cell mediated immunity, the affected cell undergoes the process of lysis.

Answer:

Mitosis  is the biological process by which cell division occurs

Explanation:

-in interphase the nucleolus and its cell membrane are differentiated, and the chromosomes are in the form of chromatin

- in prophase the chromosomes are condensed, and the chromatin is no longer visible

-in metaphase the rolled chromosomes each with their chromatids line up in the metaphase plate

in anaphase the chromatids of each chromosome separate and move towards the poles

in telophase the chromosomes are in each pole, the cell membrane forms again and the cytoplasm is divided.

Finally in cytokinesis cell division is completed

Answer:

a. the result of an individual's genetic constitution

Explanation:

Phenotype is the morphological expression of genotype. The genetic constituent of an individual is known as genotype. Genotype determines the genetic traits and imparts specific features of the organisms which constitute the phenotype of the organism.

The phenotype of the organisms depends on the type of the alleles of the genes present in the genome of the organisms.

For example, a human with genotype "ii" has blood type "O". Here, "ii" is the genotype that is responsible for phenotype "O blood type".

On the other hand, a human with genotype "IAIA" has blood type "A". Here. "blood type A" is the phenotype.

Answer:

In order to propose a hypothesis, there is a need to first see the function of gills in fishes. The gills of fishes comprise blood vessels that exhibit inherited tendencies of getting oxygen out of the water, which was consumed by fishes from their mouths. These gills also comprise thin walls, and when water moves over these walls of blood vessels, the oxygen from water moves into the blood, and then this oxygen-enriched blood goes to various organs.  

Thus, one of the hypotheses in the given case, can be the number of blood vessels, which are found in the gills of the mentioned freshwater fish to be higher in comparison to the blood vessels found in the normal fishes, and apart from this, the surface area of the thin walls, which are found in the gills is also more in the new species of freshwater fish.  

A.

Answer:

Let's assign the dominant allele for dimples as - D - and the recessive as – d.

Based on the description, the woman must be heterozygous (Dd) for the dimple allele while the man is homozygous recessive (dd).

For the woman, her mother never had dimples meaning she was homozygous recessive (dd). This means the woman got a dominant allele from his father’s side and one recessive from the mother.

The man and the woman will, therefore, have the chances of bearing offspring as shown in the punnet square below;

50% will have dimples while 50% will not.

B.

Answer:

The same as above (and punnet square attached) because there is merely a switch of genotypes between the sexes as per the description.

C.

Answer:

Yes because in such case, the man is homozygous dominant (DD) for dimple allele. This way all offspring will be heterozygous dominant meaning they'll all have dimples. See the next punnet square (attached)

Dimple in chin is a dominant trait controlled by genes. The children produced by mixed genotypes parents have certain percentages for expressing either trait typically. However, probability may not always translate into real world results due to luck.

In genetics, traits like a chin dimple are controlled by genes. The term genotype refers to the genes of an individual that determine traits. The dominant trait (like a chin dimple in this case) can be denoted by 'B', while the recessive trait (like a smooth chin) is denoted by 'b'. Dominant traits only require one gene (either from the father or mother) to be expressed, while recessive traits require both parent genes to be expressed.

(a) A woman with a chin dimple (B) paired with a man without a chin dimple (b) would result in children who have a 50% chance of having a dimple (Bb), given that the woman would be carrying the recessive trait from her mother.

(b) If a man with a chin dimple (B) and a woman without one (b) produce a child without a chin dimple, it means that the man must have been heterozygous for the trait (Bb), otherwise all the children would have had chin dimples.

(c) If a man with a chin dimple and a woman without one produce all children with chin dimples, the man's genotype is most likely BB. This is because, if it were Bb, there would have been a 25% chance at least one child being without a chin dimple (bb), but if all children have chin dimples, it's more likely that the man is BB.

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Answer:

Explanation:

The homozygous recessive individual can only produce 1 type of gamete (aabb).

The heterozygous individual can produce 8 types of gametes, of which 2 are parental and the rest are recombinant.

Genetic distance (m.u.) = Frequency of Recombination (%)

If the distance between genes A and B is 50 m.u., 50% of the gametes produced by the heterozygous individual, and therefore the offspring, will have recombinant phenotypes.

Without knowing that the genes are located on the same chromosomes, I'd think they are on different chromosomes, because you would get the same result: 50% recombinant offspring.

Whenever the genes on the same chromosome are separated by at least 50 m.u., or they are in different chromosomes, crossing over between them can happen with no restrictions and they will behave as independent of one another.

Given a genetic distance of 50 map units (centimorgans, cM), we would expect to see approximately 50% of offspring expressing recombinant phenotypes due to recombination or crossover events. This rate corresponds to a 50% recombination frequency. If we didn't know the genes resided on the same chromosome, we'd expect a Mendelian ratio assuming independent assortment.

Given the genetic distance of 50 map units or centimorgans (cM) apart, genes A and B indicate that they are far apart on the same chromosome. Thus, the likelihood of recombination or crossover events between these genes resulting in recombinant phenotypes is high. Specifically, the recombination frequency corresponds to the genetic distance, meaning that with a distance of 50 cM, we expect about 50% of the offspring to express recombinant phenotypes.

Since you asked how one might interpret this information without knowledge of these genes being on the same chromosome, it is important to mention that if we didn't know this, we would expect to see Mendelian ratios assuming independent assortment of the genes. That is, the appearance of recombinant and parental types would be approximately equal, again indicative of a 50% recombination frequency.

This is due to the random segregation during the formation of gametes, where it's equally likely that either allele from one parent will be passed on to the offspring. This recombination frequency therefore, indicates that every type of allele combination is represented with equal frequency or 50 percent of offspring are recombinants. The other 50 percent retain the original, parental combinations of traits.

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Answer:

d. cooking contaminated food to kill the bacteria will prevent transmission of the disease

Explanation:

Staphylococcus is an opportunistic pathogen that normally inhabits our skin and respiratory tract. When this bacteria grows in food it produces different enterotoxins, which are stable at high temperatures. That is why if a food is contaminated with this bacterium, it is possible that it already contains enterotoxin and when it is reheated or cooked, even though the bacteria is killed, the toxin will remain active and will generate the disease.

Answer:

DNA is the genetic material of all the living organism except some viruses. The structure and the characteristics of the DNA was well explained by Watson and Crick.

DNA is a double stranded molecule in which nitrogenous bases are linked together. Watson and crick explained that DNA strand are antiparallel. The antiparallel nature of the strand means one DNA gas a polarity of 5' to 3' direction whereas the another strand of the DNA gas polarity of 3' to 5' direction. These two strands has opposite polarity and runs in anti parallel directions. Thus, the DNA strand known as antiparallel strands.

Answer: False

Explanation:

The genetically modified crops does not contains viruses and bacteria in it. The genetically modified crops has the desired genes that produces protein according to our will.

There are many genetically modified crops that is found today, like Bt brinjal, Bt tomato, Bt cotton and many more.

These crops are rich in minerals and vitamins and has the ability to kill the insects feeding on them.

So, it does not contains any viruses and bacteria that may cause disease.

Answer:

Explanation:

The circulatory system consists of typically two organs these are the heart which also belong to the cardiovascular system and the lungs which also belong to the respiratory system these are connected to the arteries, veins and other blood vessels. The lungs receives the oxygen which diffuse oxygen into the blood vessels which transports the oxygenated blood to the heart which is pumped and circulated by the heart to all the parts of the body.    

Answer:

There are several mechanisms, like resistance to antimicrobial agents, encapsulation or secretation of proteins that affects and might destroy the phagocyte

Explanation:

Some leukocytes in our body perform phagocytosis as a defense mechanism against the pathogenic bacterium. These phagocytes contain lysosomes, intracellular granules that possess bactericidal substances (especially toxic oxygen species, such as H2O2) and enzymes (proteases, lipases, etc.). When the phagocyte ingests the pathogen, a phagosome is formed, which merges with the lysosome, forming the phagolysosome, which is where toxic substances and enzymes kill the ingested microorganism.

There are several mechanisms by which a microorganism can survive this process:

-Resistance to antimicrobial agents. Some bacteria use phenolic glycolipids from their cell wall, to eliminate toxic oxygen compounds (i.e Staphylococcus aureus and mycobacterium tuberculosis).

-Some pathogens produce a protein called leukocidin, a cytotoxin that destroys the phagocyte and the pathogen is free. Generally, these bacteria are the generators of pus, like Streptococcus pyogenes.

- There are bacteria whose mechanism is encapsulation, increasing their resistance to phagocytosis (i.e Streptococcus pneumoniae). Some even secrete substances on their surfaces, called M proteins, that prevents phagocytosis from completing

Answer: Through the inhibition of the fusion between the phagosome and the lysosome.

Explanation:

Bacteria are pathogens recognized by the immune system. When one of them enters the body, cells of the innate immune system such as dendritic cells or macrophages recognize them and phagocyte them. These bacteria, once inside the immune system cell (called phagocyte), are housed in vesicles called phagosomes. They eventually fuse with lysosomes, which are organelles containing hydrolytic enzymes for the degradation of componentens. When the phagosome, which contains the bacteria, fuses with the lysosome, the bacteria are degraded.

The bacteria may be able to survive inside of phagosomes because they prevent the fusion of the phagosome with the lysosome. And this prevents the discharge of lysosomal enzymes into the phagosome.

This strategy is employed, for example, by M. tuberculosis and Salmonella. This can be achieved through the release of sulfates which are bacterial cell wall components. Those sulfates modify the lysosomal membrane and this inhibits the fusion.

-

Answer:

Introns.

Explanation:

The RNA transcript consists of the both the exons and the introns region. The exons are the coding region of the RNA that codes for the particular amino acids.

The introns are the interrupted sequences between the exon. These sequences does not code for any proteins but helps in the alternative splicing. The introns are not present in case of prokaryotes.

Thus, the correct answer is option (d).

Answer: The correct answer is option b

Explanation:

It is the reaction of cellular respiration in which glucose is oxidized to produce energy (ATP). Carbon dioxide and water are produced as byproducts.

It is the reaction which produces energy for all other cellular functions. One molecule of glucose yields around 36-38 ATP molecules.

Rest other reactions such formation of ATP (ADP + P = ATP) gets energy from chemiosmosis produced by cellular respiration. Formation of sugars from carbon dioxide and water (option c) gets energy from solar energy (photolysis). Formation of proteins (amino acids to proteins) or translation is also an energy-driven process. It gets energy from hydrolysis of ATP.

Thus, the correct answer is option b.

The conversion of glucose (C6H12O6) and oxygen (6O2) to carbon dioxide (6CO2) and water (6H2O) can occur without a net influx of energy from some other process. This process, known as cellular respiration, is exothermic and releases energy. Other listed processes (options a, c, d), including creating ATP, photosynthesis, and protein synthesis, require the influx of energy.

The metabolic process that can occur without a net influx of energy from some other process is option b, that is, the conversion of glucose (C6H12O6) and oxygen (6O2) into carbon dioxide (6CO2) and water (6H2O). This process is known as cellular respiration, which is an exothermic reaction that releases energy.

The other processes listed need an influx of energy from another process. For instance, the conversion of ADP + P to ATP + H2O (option a) requires energy. The process by which 6CO2 + 6H2O is converted to C6H12O6 + 6O2 (option c) is photosynthesis, which requires energy from sunlight. Lastly, the conversion of amino acids into protein (option d) is a process called protein synthesis also requires energy.

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Answer:

The atom has more electrons than protons.

Explanation:

Ions may be defined as the element that contains either positive or negative charge over it. Two types of ions are cations and the anions. The charge on the species is obtained by the loss or gain of electron.

Anions carry negative charge over them. Negative charge occurs by gaining of the electrons from its neighboring atoms. The number of protons and electrons are equal in neutral atom. Since, the ions gain the electron and hence it carries more protons.

Thus, the correct answer is option (a).

An anion is an atom that has gained electrons and has more electrons than protons.

The correct statement among the options is a. The atom has more electrons than protons.

An anion is a negatively charged ion, which means it has gained one or more electrons. This results in the atom having more electrons than protons, giving it a net negative charge.

For example, consider the chloride ion (Cl-) in table salt. It has 17 protons and 18 electrons, so it has one extra electron, making it a negatively charged anion.

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Answer:

42,5 mL

Explanation:

We need to use the serial dilution formula beacuse we start with a stock concentrate solution and we need to prepare a new less concentrated one.

[tex]DF=\frac{Vi}{Vf}[/tex]

DF in the dilution factor, Vi is the initial volume and Vf is the final volume.

The first step is to have the same measurment unit so we need to convert 345 µg to mg.

we know that 1 µg equals 0,001 g, hence:

[tex]345 µg = 0,345 mg[/tex]

now the final volume is 0,345 mg  protein/ mL and the inital volume is 15mg protein/mL, both of them are in the same unit so we can use the formula

[tex]DF= \frac{15mg protein/mL}{0.345mg protein/mL}[/tex]

[tex]DF= 43,5 mg protein/ mL[/tex]

Now since the question said that we already have 1.0mL of the amylase stock solution we need to subtract that 1.0mL to the 43,5 mg protein/mL

[tex]43,5mL-1,0mL = 42,5 mL[/tex]

So, we need 42,5 mL of diluting buffer if we want a final concentration of 345 µg protein/mL (0.345 mg protein/mL)

To dilute a 15 mg/mL amylase solution to a final concentration of 345 \\/strong>\mu\g/mL\strong>, approximately 42.48 mL of diluting buffer needs to be added to 1 mL of the initial solution.

To calculate the volume of diluting buffer needed to adjust the concentration of a solution, you can use the dilution equation C₁V₁ = C₂V₂, where C₁ is the initial concentration, V₁ is the initial volume, C₂ is the final concentration, and V₂ is the final volume after dilution. Starting with 1 mL of a 15 mg/mL amylase solution, you want a final concentration of 345 \\mu\g/mL. First, convert the final desired concentration to mg/mL by dividing by 1,000 (because there are 1,000 micrograms in a milligram), giving you 0.345 mg/mL as C₂.

Using the dilution equation:

C₁V₁ = C₂V₂
(15 mg/mL)(1 mL) = (0.345 mg/mL)(V2)
V2 = (15 mg/mL * 1 mL) / (0.345 mg/mL)
V2 = 43.478 mL

To find the volume of buffer required, subtract the initial volume (V₁) from the total final volume (V₂).

Buffer Volume = V₂ - V₁
Buffer Volume = 43.478 mL - 1 mL
Buffer Volume = 42.478 mL

So, you need to add approximately 42.48 mL of diluting buffer to the 1 mL amylase solution to achieve the desired concentration of 345 \\mu\g/mL.

In mitochondria, exergonic redox reactions mainly provide the energy that establishes the proton gradient necessary for ATP synthesis. These reactions play a crucial role during cellular respiration processes.

In mitochondria, exergonic redox reactions perform multiple roles. The statement that is most accurate is option 'b' - exergonic redox reactions provide the energy that establishes the proton gradient. During processes of cellular respiration such as the Electron Transport Chain (ETC), the energy from these reactions leads to the pumping of protons across the mitochondrial membrane. This creates a concentration gradient which is critical for ATP synthesis. Something important to note is that while these reactions are key for ATP synthesis, mitochondria are typically found in eukaryotes rather than prokaryotes (option 'a').

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The exergonic redox reactions in mitochondria [Option b] provide the energy needed to establish a proton gradient. This gradient drives ATP synthesis through oxidative phosphorylation.

Answer:

d. alternation of generations

Explanation:

The alternation of generations is when an organisms lives a part of its life cycle being diploid and other part being haploid in a multicellular state. Plants such us as ferns (Pteridophyte) also have alternation of generations.

Alternation of generations is not a characteristic that distinguishes gymnosperms and angiosperms from other plants, because it is a feature common to all land plants. The other options listed, dependent gametophytes, ovules, and pollen, are unique to gymnosperms and angiosperms.

All of the options listed are characteristics that generally distinguish gymnosperms and angiosperms from other plants, but one of them is also characteristic for most plants: the alternation of generations.

Dependent gametophytes, ovules, and pollen are unique to gymnosperms and angiosperms, serve as distinguishing features. The gymnosperms and angiosperms have a distinctive reproductive strategy involving dependent gametophytes, which are reduced in size and rely on the parental sporophyte, enclosed ovules, and pollen as a transport mechanism for male gametes.

Alternation of generations refers to a life cycle that includes both a multicellular diploid phase (the sporophyte) and a multicellular haploid phase (the gametophyte). This cycle is not unique to gymnosperms and angiosperms and is, in fact, a characteristic of all land plants.

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Answer:

Osmolarity:

Osmolarity may be defined as the number of solutes dissolved in per solution of liters. The osmolarity plays an important role in the human body as it maintains the water electrolyte balance in the body. The osmolarity of the human plasma is about 275-299 milli-osmoles/kilogram.

Hemopoiesis:

Hemopoiesis may be defined as the process of formation of blood cells in the body. The main types of blood cells formed during this process are red blood cells, white blood cells and platelets. The hemopoiesis majorly occurs in the bone marrow cells.

Answer:

a. southern blots hybridize a DNA probe to a digested DNA sample but northern blots hybridize a DNA probe to, usually, mRNA

Explanation:

Both techniques are quite similar. The main objective of this technique is to identified specific either DNA or mRNA molecules. Hybridization is the process of forming a double - stranded DNA molecule between a single-stranded DNA probe and a single-stranded target DNA (which is the fragment that wants to be found.  Northern blotting targets mRNA while Southern blotting targets DNA sequences.