Why are non-native tree diseases and insects often so much more virulent than their native counterparts?

Answer:

b. Aldosterone promotes sodium reabsorption in the kidneys.

Explanation:

Once it is produced by the adrenal gland it stimulates the mineralocorticoid receptors on the distal tubule and collecting duct of the kidney's nephrons. This causes sodium reabsorption in the kidneys indirectly affecting water retention.

The statement 'b. Aldosterone promotes sodium reabsorption in the kidneys' is correct. Aldosterone helps regulate electrolyte balance, increasing sodium reabsorption and water retention, leading to elevated blood volume and pressure while also excreting potassium.

The correct statement among the options given is: b. Aldosterone promotes sodium reabsorption in the kidneys. Aldosterone is a hormone secreted by the adrenal cortex, and it plays a vital role in regulating sodium and potassium balance within the body. It is released in response to several conditions, including low blood volume, low blood pressure, or high levels of potassium in the blood. The primary function of aldosterone is to increase the reabsorption of sodium ions in the distal convoluted tubules and collecting ducts of the kidneys. When sodium is reabsorbed, water follows due to osmosis, leading to an increase in blood volume and blood pressure. Conversely, aldosterone also stimulates the excretion of potassium, thereby reducing its levels in the blood.

No ATP is synthesized when channel proteins that allow the free passage of protons are inserted into the thylakoid membrane is the evidence.

The chlorophyll obtains the electrons from water which produces oxygen as a by product. During the process of electron transport, H+ is pumped across the thylakoid membrane, which leads to the production of proton gradient that is responsible for the formation of ATP in the stroma.

If proton gradient is not available or present then no ATP is synthesized so we can conclude that no ATP molecules are formed if no protein gradient is provided to the thylakoid membrane.

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Option C is correct. No ATP is synthesized when channel proteins that allow the free passage of protons are inserted into the thylakoid membrane is the evidence.

During Photosynthesis:

So we can conclude that the proton gradient is required to generate ATP.

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Answer:

n/l

Explanation:

Natural selection through directional selection was the driving force behind evolution. The parents of the purple flowers were capable of withstanding the selective pressure.

Natural selection is the process by which living organism populations adapt and change. Individuals in a population are basically the naturally variable, which implies they differ in some ways.

The driving force behind evolution was natural selection via directional selection. The purple flowers' parents were able to withstand the selective pressure.

Because of dominance in expression with each successive generation in both homozygote and heterozygote states, and thus higher frequency of expression compared to white flowers, the gene pool of purple flowers will be large.

The frequency of an allele is determined by the allele's rate of expression in the population.

Thus, dominant purple flowers have a higher frequency of expression than recessive white flowers, which can only express themselves in the homozygote recessive state.

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Answer:

D. because 2 ATP are lost due to the production of by β oxidation inside a mitochondrion

Explanation:Two ATPs were borrowed from the Nets 4 ATPs produced in glycolysis, for the substrate level phosphorylation in the initial stage of glycolysis for pyruvate productions.

Therefore, the total ATPs would have been 108ATPs, produced as net ATPs, during kerb’s cycle, and oxidative phosphorylation. But because 2ATPs has been spent in substrate phosphorylation then the ATPs produces is 106ATPs

Answer:

The correct answer will be- There is some molecule which could have transformed the avirulent bacterial strains to become virulent and called it a transforming principle.

Explanation:

Griffith performed the experiment on two strains of Streptococcus pneumonia in which one strain is avirulent called R strain and another virulent strain called S strain.

When Griffith killed the S bacteria (virulent) by heat and added it in the R strain Petri dishes and then injected the bacteria to mice, the mice killed. This amazed him as to how the avirulent bacteria killed the mice ?

He concluded that there was some principle which transformed the avirulent bacteria to virulent bacteria and thus called the principle as transforming principle.

Answer:

Glucose-6-phosphate,ATP, hexokinase,fructose-1,6-bisphosphate.

Explanation:

In the first reaction of glycolysis glucose is converted to glucose is converted to glucose -6-phosphate.The phosphate comes from ATP. Hexokinase is an enzyme that transfers the terminal phosphate to a substrate.The product of this reaction is then converted to fructose-6-phosphate.Fructose-6-phosphate is then phosphorylated by a second reaction,giving fructose-1,6 -bisphosphate.

Answer:

it will be 64 chromosomes after four generations.

Explanation:

Sexual reproduction follows meiosis cell division . this is two step process in which one round of replication occurs and two round of cell division occurs. by which chromosomes are converted to haploid state(n) instead of diploid(2n) state.

when two haploid cells are sexually matted, one diploid(2n) zygote cells are produced.

hare no haploid cells are produced rather diploid cells are matted. So, the chromosome no. of zygote will be doubled after each generation.

so, after 4 generation their will be 64 chromosome.

If sexual reproduction took place for four generations using diploid (2n) cells instead of haploid cells (n), the number of chromosomes would double with each generation.

If sexual reproduction took place for four generations using diploid (2n) cells instead of haploid cells (n), the number of chromosomes would double with each generation. In the first generation, each parent's diploid cell with four chromosomes would combine, resulting in 8 chromosomes in the offspring.

In the second generation, the offspring's diploid cells with 8 chromosomes would combine, resulting in 16 chromosomes in the next generation. This doubling would continue for each subsequent generation, resulting in 32 chromosomes in the third generation and 64 chromosomes in the fourth generation.

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Answer:D

Explanation:After water combined with CO2, it give glucose n oxygen

Answer:

D

Explanation:

The number of histone H2A molecules in the chromatin of one somatic human cell after DNA replication but before cell division is approximately 21.23 million.

The human genome is composed of 3.1 billion base pairs. The spacing between nucleosomes is on average 146 base pairs. After DNA replication, the number of histone H2A molecules in the chromatin of one somatic human cell can be calculated by dividing the total number of base pairs by the nucleosome spacing. Therefore, the number of histone H2A molecules in one somatic human cell after DNA replication but before cell division is approximately 21.23 million, which is not one of the given options.

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(1)

For unicellular organisms, cell division is important for the reproduction of the population, Unicellular organism mainly use cell division, also called binary fission, for pollution growth. This is because unicellular organisms are only composed of one cell.

Multicellular organisms use cell division for growth and reproduction. Cell division causes increase in the number of cells composing the organism hence its growth in size. Cell division is also used to create gametes that are used in reproduction by fertilization.

(2)

Even in fully developed organisms, cell division is important in tissue repair. In tissue homeostasis, there is a balanced rate of cell division and cell death .  An example in muscles. Due to the stress experienced by muscle cells, they usually have a lower life span and therefore the damaged cells are often replaced with new ones by cell division. This prevents tissue wastage.

(3)

Growth factors signal the growth of a cell. They usually bind receptors on the cell surface and indicate how the cell should grow and divide base don environmental stimuli. An example is during regular exercises. Growth factors indicate that the muscle cells should divide regularly and grow bigger to accommodate the higher stress in the muscles from the workout. This is how your muscles grow bigger and stronger with more exercise.  

(4)

Differentiation of cells occurs through the silencing of some gene allowing the cell to produce particular proteins (and other biomolecules) that align with its functions in the body. This especially critical in multicellular organisms.  An example is that while al the cells in your body have the same DNA, some cells differentiate into liver cells while others into lungs, stomach, heart, and etcetera.  

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Cell division is important in both unicellular and multicellular organisms. It is the primary method of reproduction in unicellular organisms, allowing them to multiply and grow. In multicellular organisms, cell division is necessary for growth, maintenance, and repair of cells and tissues. Growth factors play a role in regulating cell division, and differentiation is the process by which cells become specialized to perform specific functions.

Cell division is important in both unicellular and multicellular organisms, but for different reasons. In unicellular organisms, cell division is the primary method of reproduction. When a single cell divides, it creates two new cells, allowing the organism to multiply and grow.

In multicellular organisms, cell division is important for growth, maintenance, and repair of cells and tissues. For example, when an organism is injured, cell division allows for the regeneration of damaged tissues. Additionally, cell division is necessary for the production of new blood and skin cells in adults.

Growth factors are proteins that regulate cell division and cell growth. They bind to specific receptors on the surface of cells and initiate signaling pathways that promote cell division. These growth factors ensure that cell division occurs in a controlled and regulated manner.

Differentiation is the process by which cells become specialized to perform specific functions. During development, cells undergo differentiation to become different types of cells, such as nerve cells, muscle cells, or skin cells. This specialization allows for the coordinated functioning of different tissues and organs in multicellular organisms.

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A Proximity of 92 percentage may likely be eliminated from the population.

Explanation:

This is based on the principle of genetic drift which states that the allele frequency in a population changes from generation to generation. Sometimes there in a loss of alleles and otherwise there is a fixation or rise.

If there is a probability of an allele being fixed we have to calculate the initial frequency of the mutation.

Mutation fixing probability = No. mutation alleles / total Number of alleles

                                           = 1/12 = 0.083

Therefore the probability of the allele getting eliminated is

Elimination probability = 1 – mutation fixing probability

                                     = 1 - 0.083  = 0.917  =91.7 % = 92 %

Answer:

1. Deoxyribose  sugar

2. Phosphate molecules

Explanation:

The back bone of DNA  is made up pf two molecules.

1. Deoxyribose  sugar

2. Phosphate molecules

deoxyribose is a 5 carbon sugar molecule  while phosphate is inorganic salt .

Final answer:

The backbone of the DNA molecule is composed of a sugar-phosphate chain, formed by the alternating units of phosphate groups and a five-carbon sugar called deoxyribose.

Explanation:

The sides or backbone of the DNA molecule are made up of alternating units of phosphate groups and a five-carbon sugar known as deoxyribose. These two components are bonded together through a type of chemical reaction known as dehydration synthesis, which forms a covalent bond between the phosphate group of one nucleotide and the deoxyribose sugar of the next, resulting in a long polymer chain. This sugar-phosphate backbone forms the structural framework of DNA to which the nitrogen-containing bases are attached. The structure of DNA is a double helix, where these backbones twist around each other with the complementary nucleotide bases pointing inwards, held together by hydrogen bonds.

Answer:

b) Type II helpers have greater inclusive fitness than Type I helpers

Explanation:

Type II helpers have a greater direct fitness and inclusive fitness than Type I helpers. Breeders with Type II helpers have higher fitness than breeders with Type I helpers.

Type II helpers have greater direct fitness than Type I helpers. Direct fitness refers to the number of offspring an individual produces, so Type II helpers, despite not being able to breed, increase the reproductive output of the breeders by 1.5 offspring. On the other hand, Type I helpers increase the reproductive output by 0.5 offspring. Therefore, Type II helpers have a greater direct fitness than Type I helpers.

Type II helpers also have greater inclusive fitness than Type I helpers. Inclusive fitness includes both an individual's direct fitness and the fitness gained through relatives that share genes with it. Since Type II helpers are closely related to the breeders' young by a coefficient of relatedness of 0.4, their help indirectly increases their own inclusive fitness.

Breeders with Type II helpers have higher fitness than breeders with Type I helpers. This is because Type II helpers provide more effective help, resulting in a higher increase in the number of offspring. Therefore, statement b) Type II helpers have greater inclusive fitness than Type I helpers is true.

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Answer:

Explanation:

A is correct because energy from electrons from oxygen are used to pump the H+ (as well as electrons from NADH) It's not D because glycolysis happens both in absence and presence of oxygen and never uses O2 so glycolysis is the same in both processes, its what happens after glycolysis that is dependent on the availability of oxygen (oxidative phosphorylation or fermentation)

Final answer:

The rate of proton pumping across the inner mitochondrial membrane is lower in the sample without oxygen, explaining why ATP production is greater in the tube with oxygen. Glycolysis does not produce more ATP in the presence of oxygen.

Explanation:

The best explanation for why ATP production is greater in the tube with oxygen than in the tube without oxygen is that the rate of proton pumping across the inner mitochondrial membrane is lower in the sample without oxygen. In oxidative phosphorylation, oxygen acts as the final electron acceptor and combines with protons to form water. Without oxygen, the electrons cannot be removed from the system, causing the electron transport chain to back up and ATP production to decrease. Therefore, the presence of oxygen is essential for efficient ATP production.

In contrast, choice D, glycolysis refers to the breakdown of glucose without oxygen and occurs in the cytoplasm, not the mitochondria. Glycolysis produces a small amount of ATP directly, regardless of the presence of oxygen. However, the majority of ATP production occurs through oxidative phosphorylation in the mitochondria, which requires the presence of oxygen.

Answer:

Front the atmosphere that's from environment

Answer:

C. empirical evidence

Explanation:

Empirical evidence is a type of knowledge obtained through sensory experience, that is, through the process of observation and experimentation. Empirical evidence is often used during the application of the scientific method to test a hypothesis. In the example in question, Peter Grant obtained empirical evidence about birds' biology to verify that his assumptions about their evolution were correct.

Answer:

Explanation:

Thiamine pyrophosphate is a thiamine derivative and acts a coenzyme for various enzymes including pyruvate dehydrogenase and α-ketoglutarate dehydrogenase. These are involved in catabolism of pyruvate and α-ketoglutarate, respectively.

Final answer:

Innate immunity consists of barrier defenses like the skin, and internal defenses such as the inflammatory response, natural killer cells, and phagocytes. These components work together to provide immediate defense against pathogens.

Explanation:

Innate immunity includes both barrier and internal defenses against pathogens. The following are four components of the innate immune system:

These components work together to provide immediate, nonspecific responses to various pathogens and prepare the body for more specific adaptive immune responses.

Explanation:

A preditor-prey system, the 2 species are related by; co-evolution(because preditors eat prey that is available and plentiful, for example a rodent species.

also, the population cycle because rodents live for a short period of time in the wild, but reproduce quickly. example; spring and summer seasons is when food is most plentiful for all species of wildlife,

Answer:

In a predator-prey system, the two species are related by the population cycle.

Explanation:

A recent study was published in NATURE which demonstrated that predator prey system is related with each other through population cycle.

As the population of organisms keep on changing with time. For example mouse and rats produce 7-10 off springs in a month while snake that hunt mouse breed only seasonally once or twice a year.

 Here is the full study that will help you under stand better.

Citation: Stevens, A. (2010) Dynamics of Predation. Nature Education Knowledge 3(10):46

Answer:

The correct answer is C. be more likely to have cancer at some point in his/her life.

Explanation:

Cell cycle checkpoints are controlled by different proteins which are coded by different genes. They are important in cell cycle regulation and stops cell cycle immediately if they find any problem in the cell like mutation.

The cell cycle will not be continued if the problem does not solve and cell death will occur which prevents cancer by preventing the mutation to spread into new cells.  

Therefore if a mutation occurs in certain genes that enforce a checkpoint on the cell cycle then the mutated gene will pass in new cells and the mutated cells will grow uncontrollably due to no checkpoints so the person will probably have cancer at some point in his or her life.

Answer:

The correct answer will be option-D

Explanation:

Acid deposition is the process by which the acid formed in the atmosphere falls off with the rain and gets deposited in the lithosphere.

The deposition of the acid in the soil causes many adverse effects on the living organisms especially plants as deposition of acid leads to the reactions which result in the release of the elements from their compounds via a process known as "leaching".

The leaching of the elements leads to the decrease in the fertility of the soil and thus productivity of the plants or crops.

Thus, option-D is the correct answer.

Answer:

Option (D)

Explanation:

The acid rain is usually defined as a type of precipitation which is comprised of acids such as sulfuric and nitric acids and is harmful to the living organism.

It directly affects the soil because the nutrient particles present in the soil such as phosphorus, nitrogen, and aluminum are washed away during acid rain. The acid rain adds the hydrogen ions to the soil and reacts with the nutrients present in the soil and thereby removes it and it eventually flows to the streams and rivers. This process of eroding soil particles is often known as leaching.

Thus, Acid rain leads to the leaching of important soil minerals.

Thus, the correct answer is option (D).

Answer:

The correct answer will be- flock defense

Explanation:

A flock is a group of same species of animals usually observed in the birds during migration.

The flock increases their fitness of survival by avoiding predators in which the one individual of the group gives a call in response to the predator.

The same predator call is repeated by every member of the flock which threatens the predator and the predator goes away. This flock response is considered as the defense response to predator and thus the mechanism is known as flock defense.

Thus, flock defense is the correct answer.

Answer:

Explanation:

cDNA is the acronym for complementary DNA. This DNA is a single or double stranded moolecule that is synthesized from a messenger RNA molecule. This molecule is used in studies that aim to clone eukaryotic genes in prokaryotic individuals. The result of this is the expression of a protein from a eukaryotic individual in prokaryotic individuals.

To form a double-stranded cDNA molecule, the following steps would be required:

Answer:

Repressor and repressible.

Explanation:

Operon may be defined as the functional unit of the DNA that contains the cluster of genes. These genes are transcribed by the single promoter and works as polycistronic gene.

The blob operon is inactive in the presence of the B. Here, Gene S may acts as a repressor protein and requires the  B compound to work as a corepressor. The blob operon acts as the repressible as it is inactive in the presence of B compound and become active only when the B compound is absent.

Thus, the answer is repressor and repressible.

Answer:

50%

Explanation:

According to the given information, the allele for the red-green colorblindness is inherited in an X linked recessive manner. Let's assume that the allele X^c is responsible for red-green colorblindness. The woman is normal but had a colorblind father (X^cY). Fathers give their X chromosomes to the daughters while their Y chromosome is transmitted to their sons. The sons get their X chromosomes from the mother.

The colorblind father has transmitted the X-linked allele for the red-green colorblindness to his daughter. Therefore, the genotype of the woman is X^cX. The woman would produce two types of eggs: 50 % with X^C and 50% with X. Therefore, 50% of sons of this woman would get X linked allele for the red-green colorblindness and would be affected by the disorder while the rest 50% of her sons will be normal.

Answer:

Males would be more affected because they inherit only one X chromosome. Women would have to inherit two recessive genes to develop the trait, while men would have to inherit only one.

Explanation:

Answer:

Option E, Crossing Over

Explanation:

In the process of crossing over, a chromosome is replicated to produce two sister chromatids.  

Sister chromatids have genes that are divided and shared with the offspring in equal number. In this way genetic traits are exchanged and the offspring has a new set of genes.  

This process takes place at the prophase stage of cell division.  

Without crossing over, gene linkage is incomplete.

Hence , option E is correct

Answer:

The correct option is C ' Each of the three types of RNA are transcribed by different RNA polymerases. Only RNA polymerase II, involved in mRNA synthesis, contains a domain capable of interacting with enzymes that form the cap.'

Explanation:

All the different type of RNA's undergo the process of transcription. However, their transcription is carried on by different types of RNA polymerases.

The transcription of the mRNA is carried by RNA polymerase II. The process of capping is essential so that the mRNA is stopped from degradation.

The rRNA is transcribed by RNA polymerase I which cannot add a cap tothe RNA.

The tRNA is transcribed by the RNA polymerase II, but the domain is different which cannot undergo the process of capping.

Answer:

You need to mix 2 µL of the 5x loading dye and 8 µL of the PCR product.

Explanation:

To get a final concentration of 1X of the loading dye, you make the next calculations:

(V1)(C1)=(V2)(C2)          (Volume1)(Concentration1)=(Volume2)(Concentration2)

where:

(V1)(5x)=(10 µL)(1x)

V1=[(10 µL)(1x)]/5x

V1= 2 µL

Option(C)- Oxidation of NADH to NAD+H

Result: Therefore option C is the correct answer.

Final answer:

The incorrect step in the sequence of glycolysis from glyceraldehyde-3-phosphate to 3-phosphoglycerate is the oxidation of NADH to NAD+, as this step actually involves the reduction of NAD+ to NADH.

Explanation:

The steps of glycolysis in which glyceraldehyde-3-phosphate is converted to 3-phosphoglycerate include several biochemical reactions. Among them, oxidation where NAD+ is reduced to NADH, the phosphorylation adding a phosphate group (Pi) to form 1,3-Bisphosphoglycerate, and the ATP synthesis during substrate-level phosphorylation when the high-energy phosphate group from 1,3-Bisphosphoglycerate is transferred to ADP to form ATP. Furthermore, the enzyme Phosphoglycerate Mutase catalyzes the conversion of 3-phosphoglycerate into 2-phosphoglycerate, which is a later step in glycolysis.

The correct option in the context of this question would state an incorrect association within this sequence of reactions. As such, option C, 'Oxidation of NADH to NAD+' is incorrect because during this step of glycolysis, NAD+ is actually reduced to NADH, not oxidized.