What do climate change (see Concept 1.1 and Concept 3.2) and ocean acidification have in common?

Answer: a. encode transcription factors that control the expression of genes

Explanation:

Homeotic Genes - They encode transcription factors that determine the location at which specific structures develop. They give organs identity. Homeotic genes act as regulators of development and some mutations found in flies were instrumental in unraveling the macroevolution related mysteries.

Mutations in homeotic genes are often fatal in the early stages of development, however viable mutant flies with strange aberrations have been found, such as the discovery of Antennapedia mutants, in which paws are formed in place of antennae. Homeotic genes regulate the development of specific embryonic segments and are fundamental, among other functions, in determining the anteroposterior axis of metazoans. When we compare flies and humans, homeotic genes resemble both their nucleotide sequence and their relative position on chromosomes.

Answer:

Central nervous system:

Central nervous system consists of the brain and the spinal cord. Short nerve impulse are present in the central nervous system. The information are obtained from the sensory organs. The damage of nerve fibers are irreparable in the central nervous system.

Peripheral nervous system:

Peripheral nervous system consists of the motor neurons, sensory receptor and sensory neurons. Long nerve impulse are present in the peripheral nervous system. The information are pass out to the effector organs. The damage of nerve fibers are reparable in the peripheral nervous system.

a. Height

It's true that if you have tall parents, you might be tall too.

But no proof is a sex-linked trait.

b. Hemophilia

This is a disease related to blood coagulation.

It's recessive and linked to X chromosomes.

c. Duchenne Muscular Dystrophy

This is also a recessive sex-linked disease.

Girls can carry but only affect boys.

d. Cystic Fibrosis

This is also a hereditary disease but not linked to sex chromosomes.

e. Sickle Cell Disease

It's a malformation of blood cells and it can be inherited but not linked to sex chromosomes.

Answer:

The correct answer will be option-A.

Explanation:

Allotheria is an extinct species of a mammalian group called marsupials which lived during the Mesozoic era.

The Allotheria can be easily distinguished by the few unique characteristics which were considered of non-placental mammals:

1. Presence of molariform teeth with longitudinal cusps in the lower portion of the mouth

2. Narrow pelvis which indicates that they used to give birth to young marsupials and used to feed them.

Thus, option-A is the correct answer.

Answer:

Allopatric speciation happens when populations become isolated and the gene flow between populations stops. Is difficult for a population of animals to stop gene flow among the individuals of a population that lives in the same area because animals are dynamic and can actively look for male/females to reproduce.

Answer: Via four types of smaller molecules (adenine, cytosine, guanine, and thymine) called nucleotides.

Explanation:

DNA is the main molecule of life on Earth, it is present in the cells of all living beings, being responsible for storing the information necessary for its formation and reproduction. DNA is a double strand of nucleotides that twist to form a double helix with a rotational sense on the right.

Basically, the binding between two single strands of DNA, forming the double helix, occurs following a single rule, adenine always binds to thymine and cytosine always binds to guanine and vice versa. The DNA molecule is made up of smaller molecules called nucleotides. There are four types of nucleotides that make up DNA, they are adenine, cytosine, guanine, and thymine, represented by their first letter {A, C, G, T}, forming the DNA alphabet.

Answer:

Explanation:

Mendel's law of independent assortment state that two different genes assort independently in gamete formation.

To reach this conclusion, one has to do a dihybrid cross. This means that two genes responsible for different traits need to be analyzed at the same time.

1) Starting with a parental generation of a cross between two pure lines (homozygous for both genes) with different traits, a plant with yellow and round seeds (YYRR) and another with green and wrinkled seeds (yyrr). The F1 will be phenotypically homogeneous (yellow and round), and genotypically heterozygous (YyRr).

2) If the individuals from the F1 are crossed with one another,  we have to do a Punnett Square to determine the phenotypic ratio of the F2.

See the attached image for an illustration of the crosses in each generation and the Punnett Square.

Final answer:

Mendel's law of independent assortment demonstrates that alleles for different traits segregate independently during gamete formation, which was evidenced by the 9:3:3:1 phenotypic ratio seen in the F2 generation of a dihybrid cross. This law contrasts with gene linkage, which would lead to non-independent assortment and different ratios.

Explanation:

Mendel's Law of Independent Assortment

Mendel's law of independent assortment states that the inheritance pattern of one trait will not affect the inheritance pattern of another. This principle emerged from dihybrid cross experiments, indicating that the alleles for different traits segregate independently during the formation of gametes. By crossing two pea plants that were true-breeding for two different traits (e.g., seed color and seed texture), Mendel found that the F2 generation exhibited a phenotypic ratio of 9:3:3:1.

How does this support the law? If we consider two traits—seed color (yellow Y, green y) and seed texture (round R, wrinkled r)—the cross between F1 heterozygotes (YyRr × YyRr) should produce offspring with varying combinations. Using a Punnett Square, we find that the gametes form four possible allele combinations (YR, Yr, yR, yr) in equal proportions, leading to the 9:3:3:1 phenotypic ratio. This ratio emerges because, for example, 9/16 of the progeny will be both dominant for both traits (YR), 3/16 will be dominant for one and recessive for the other (Yr or yR), and 1/16 will be recessive for both (yr), provided the two traits assort independently.

What if genes were linked? If traits were linked, meaning they do not follow independent assortment, the observed phenotypic ratios would deviate significantly from the 9:3:3:1 expectation. Instead, some combinations of traits would occur more frequently than others, reflecting the physical proximity of the genes on the chromosomes and their tendency to be inherited together.

Answer: a. tRNA

Explanation: The transference RNA is a nucleic acid that participates of the protein synthesis. tRNA is a small RNA with folding as a trefoil. The tRNA has a site where aminoacid is loaded and a anticodon site that is complementary to the codon in the mRNA, ensuring the proper aminoacid sequence in the resulting polypeptide.

Answer:

d. in both the progeny of that individual cell and the individual cell itself

Explanation:

Somatic mutations occur in the somatic cells of the individuals. Since the genetic material of the somatic cells is not passed to the next generation of an organism, the somatic mutations do not appear in the progeny of an individual.

Somatic cells divide by mitosis which in turn maintains the identity of DNA between the parent and the daughter cells. Therefore, the new cells derived from a mutated somatic cell would also carry the same mutation.

A mutation in a somatic cell results in a mutant phenotype in the individual cell itself and the progeny or descendants of that cell, but it will not be passed to the organism's offspring.

If a mutation occurs in a somatic cell (i.e., a non-reproductive cell), the resulting mutant phenotype will occur in both the mutant cell itself and the progeny that arises from the cell division of that individual cell. So, the correct answer is. in both the progeny of that individual cell and the individual cell itself.' This happens because the mutation becomes part of the cellular DNA and will therefore be replicated each time that cell divides, spreading to all descendent cells. However, because somatic cells do not participate in sexual reproduction, these mutations will not be passed to the offspring of the organism.

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The mitochondrion absolutely requires a membrane-bound electron transport chain, proton pumps, Krebs cycle enzymes, and ATP synthase. However, it does not need glycolysis enzymes as glycolysis happens in the cytosol, not in the mitochondrion.

The primary function of the mitochondrion is indeed the production of ATP, and it does so via a process called cellular respiration. Most of the factors listed are absolutely essential for the mitochondrion to carry out this primary function. This includes the membrane-bound electron transport chain (Option A), proton pumps (Option B), enzymes for the Krebs cycle(Option D), and mitochondrial ATP synthase (Option E). However, the enzymes for glycolysis (Option C) are an exception. Glycolysis occurs in the cytosol of a cell, not in the mitochondrion, which is why the mitochondrion does not need to have enzymes for glycolysis to produce ATP.

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Answer:

Explanation:

DNA polymerase is an enzyme that helps in the synthesis of new strands of DNA. It is found in both prokaryote and eukaryotes. In prokaryotes, there are 3 types of DNA polymerase and more DNA polymerase found in eukaryotes.  

The 3 types of DNA polymerase are DNA polymerase I, DNA polymerase II, DNA polymerase III.  The DNA pol I and DNA pol II helps in DNA repair rather than DNA replication. The DNA pol III is the major enzyme that initiates the replication.  

DNA polymerase III is a multisubunit enzyme that functions as a dimer of these multiple subunits. The DNA polymerase enzyme has 3 significant enzymatic activities -  

All DNA polymerase direct the synthesis of DNA from 3' to 5' end.

It possesses 3' to 5' exonuclease activity. It also helps in proofreading activity by replacing the incorrect nucleotides with the correct base sequence.  

Some DNA polymerase has a 5' to 3' exonuclease activity. It is found in the lagging strand.

DNA polymerase is not able to initiate DNA synthesis alone. They need a free 3' end, where the enzyme can add new nucleotides. It means they require 2 primers to initiate the DNA replication in both the direction.  

The strands act as complementary to the DNA polymerase. The DNA polymerase adds new strands continuously in 5' to 3' direction in the leading strand. While in lagging strand short fragments of DNA formed. Later they attached by DNA ligase.

DNA polymerase also needs RNA polymerase in some cases to start replication. Such a process is called reverse transcription.

The key factors DNA polymerase requires to replicate DNA are:

 1. A template strand of DNA to guide the synthesis of the new strand.

 2. Deoxyribonucleoside triphosphates (dNTPs) as the building blocks for the new DNA strand.

3. A primer, typically an RNA primer, to initiate the synthesis of the new strand.

DNA polymerase is an enzyme that synthesizes DNA from deoxyribonucleotides, the monomers of DNA. The process of DNA replication is semiconservative, meaning that each strand of the original DNA molecule serves as a template for the synthesis of a new complementary strand.

Here are the key factors required for DNA polymerase to function in DNA replication:

1. Template Strand: DNA polymerase requires a single-stranded DNA template to direct the synthesis of the new strand. The enzyme reads the template strand in the 3' to 5' direction and adds nucleotides to the 3' end of the growing strand.

2. Deoxyribonucleoside Triphosphates (dNTPs): These are the precursors for DNA synthesis. dNTPs include adenine (A), thymine (T), cytosine (C), and guanine (G) nucleotides. DNA polymerase links these nucleotides together in a sequence that is complementary to the template strand.

3. Primer: DNA polymerase cannot initiate synthesis de novo; it requires a short piece of RNA or DNA called a primer that is hydrogen-bonded to the template strand. DNA synthesis starts at the 3' end of this primer.

4.Temperature Conditions: DNA polymerase has optimal temperatures at which it functions most efficiently. In humans and other eukaryotes, this temperature is around 37°C, while in bacteria like E. coli, it is slightly higher.

In summary, DNA polymerase requires a template strand, dNTPs, a primer, magnesium ions, and appropriate temperature conditions to accurately replicate DNA. These factors ensure the high fidelity of DNA replication, which is crucial for the maintenance of genetic information."

Answer:

C. Species richness, species abundance, and species evenness

Explanation:

Biodiversity is the variety and variability of all living organisms within a given environment.  The main components that contribute to biodiversity are :

1 - Species richness: It takes into account the number of different species present in an area. So the more species, the more richer that place is.

2 - Species evenness: It describes the relative abundance of the different species in an area. That is, the more similar the abundance (quantity) of a species, the more uniform it will be.

The three main components of biodiversity are species diversity, genetic diversity, and habitat diversity. These are crucial for ensuring natural sustainability, resistance to diseases, and the adaptation to environmental changes.

The three main components of biodiversity are species diversity, genetic diversity, and habitat diversity. Species diversity is the variety of different species within a specific area. Genetic diversity is the total number of genetic characteristics in the genetic makeup of a species, and habitat diversity refers to the range of different habitats present in an area.

Species diversity is important because a high diversity ensures natural sustainability for all life forms. Genetic diversity helps in providing resistance to diseases, and it enables natural populations to adapt to changes in the environment. Habitat diversity allows for a multitude of niches to be occupied by various species, enhancing species and genetic diversity.

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Answer:

Homeostasis is the body trying to maintain a equilibrium for many body elements, such as body temperature, body functions, etc, even with changes in the environment.

For example, the body, in trying to maintain body temperature in a cold area, would burn more calories and "create more heat" to equalize the body temperature.

Another example would be the body sweating so that excess heat would escape on a hot day.

~

Answer:

True

Explanation:

Testosterone is the primary male sex hormone. It is produced by the Leydig cells of the testis. The testosterone produced by both males and females. The amount is more male than females. In females, testosterone is in the form of androgen hormone.  

The anterior pituitary secretes 2 hormones i.e. LH and FSH. The luteinizing hormone from the pituitary gland enters into the interstitial space of the testis. In the interstitial space, Leydig cells are present, which are the target organ for LH. The LH stimulates the Leydig cells to produce testosterone. Hence Leydig cells are also called interstitial cells.

Testosterone secretes from the Leydig cells of the testis and mixes with the bloodstream. It produces in the presence of LH. Then it reaches to different cells of the body by the bloodstream. Testosterone maintains bone and muscle growth, induces the secondary sexual characters.

When testosterone level is high in the blood, it sends a signal to the brain to decrease the secretion of testosterone. This is the negative feedback mechanism of testosterone.

Answer:

d-b-g-f

Explanation:

1. Clone the CFRT gene from someone without cystic fibrosis.

This will make millions of copies of the gene (wild type, not being mutated and thus unable of producing the disease).

2. Combine the cloned CFRT gene with a disarmed respiratory virus.

This step will allow the virus to transport the gene of interest.

4. Have the patient use an inhaler that contains the modified respiratory virus.

This step helps the virus to enter and infect the patient's cells and thus allowing the copies of the transgene to be integrated into the patient's genome.

3. Test the patient's blood cell DNA with PCR to see if they have the CFRT transgene.

This will confirm if the transgene has actually been integrated into patient's genome.

Answer:

d. Citric acid cycle

Explanation:

The only process in the list that requires the presence of O2 in order to occur is the Citric acid cycle or Krebs cycle. This cycle is part of the aerobic cellular respiration and it occurs only when O2 is available. If there is no oxygen, an alternative process that could happen is fermentation, but this is only carried by some microorganisms and some cells such as muscle cells.  

In fact, oxygen is not needed by citric acid cycle but it is by the next step: the electron transport chain. In this chain, oxygen is the final acceptor of electrons, and without oxygen, the Krebs cycle doesn't occur because the final electron transport chain can't be done.

Answer:

It is true.

Explanation:

Throughout the skin, there are sensitivity receptors, no matter what sector we look for.

The difference is that there are areas of higher density.

Places like the hand and fingers are the ones that help us explore and know things. The number of receptors there is much greater than in areas such as the back or neck.

Answer:

The correct answer will be option-C.

Explanation:

Cellular respiration is a slow process which oxidises the food to release energy in the form of ATP.  The process proceeds in 4 stages: glycolysis, link reaction, Citric acid cycle and the electron transport chain.

The citric acid cycle produces energy molecules ATP and reducing equivalents -NADH, and FADH₂ by the oxidizing the acetyl-CoA and releases CO₂.

Thus, Option-C is the correct answer.

Answer: C : Citric acid Cycle

Explanation: Cell respiration or Cellular respiration is term by which food energy is converted into the usable energy source Adenosin triphosphate ( ATP ). Cell respiration is a set of metabolic reactions , processess and pathways.

Citric acid cycle is set of reactions by which maximum amount of CO2 is released. In Citric acid cycle acetyl CoA undergoes releactions in presence of necessary enzymes by which CO2 is released .

Answer:

Plant cells deal with osmosis by being enclosed in a cell wall.

Animal cells use active transport systems to deal with the problem of osmosis.

Fresh water protists have contractile vacuoles to deal with osmosis.

Many bacteria have cell wall to protect them from osmosis.

Explanation:

Plant cells have a rigid cell wall. If a plant cell is places in a place where the conditions are hypotonic, then the cell will tale up water by osmosis but the cell wall will prevent it from bursting. This condition is termed as the cell being 'turgid'.

As animal cells do not have the rigid cell wall, they use the mechanism of active transport system to stop the cell from bursting during osmosis. In this process, ions are moved out of the cell so that the pressure in the cell due to osmosis can be reduced.

Fresh water protists have a structure present in them called as the contractile vacuole. The contractile vacuole has the capability to remove any excess water from the cell as well storing water if there is not enough water.

Bacteria have peptidoglycan cell walls to prevent osmosis.

Osmosis is managed differently in animal cells, plant cells, freshwater protists, and bacteria; animal cells use osmoregulation, plant cells use a cell wall and vacuoles, protists use contractile vacuoles, and bacteria use a semi-permeable membrane.

Osmosis is the process by which water molecules move from an area of lower solute concentration to an area of higher solute concentration. Animal cells, plant cells, freshwater protists, and bacteria each have their own ways of dealing with osmosis.

Animal cells are dependent on osmoregulation which involves regulation of salt concentrations and water balance. This process is critical to maintaining homeostasis within the cell.

Plant cells have a cell wall which provides additional protection against overhydration. They also have central vacuoles that can store water, allowing plants to maintain the appropriate levels of hydration.

Protists, specifically freshwater forms, have specialized organelles called contractile vacuoles which pump excess water out to prevent the cell from bursting due to osmotic pressure.

Bacteria, meanwhile, use a semi-permeable membrane to control the flow of water into and out of the cell. The membrane allows the bacteria to maintain the correct balance of water and nutrients.

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Answer:

Option D, There will be an increase of [tex]10[/tex] degree Celsius in the temperature of the water

Explanation:

As we know -

[tex]Q = m*C* dT\\[/tex]

Where Q is the total amount of heat produced

m signifies mass of any substance

C signifies specific heat

and dT represents change in temperature

Specific heat of water is 1 calories per gram per degree Celsius

On substituting the given values in above equation, we get -

[tex]500* 1000 = 50000 * 1* dT\\dT = \frac{500000}{50000} \\dT = 10[/tex]

Hence , there will be an increase of approximately[tex]10[/tex] degree Celsius in the temperature of the water

Answer: the answer is based on 46 chromosomes assuming humans.

G1.

Chromatids: 46 chromosomes/ 46 chromatid.

Nucleolus: yes. only disappears during mitosis( RNA synthesis is crucial for making proteins all the time)

Mitotic spindle: no. only appears during mitosis.

Nuclear membrane: yes. only disappears during mitosis.

S. DNA replication occurs.

Chromatids: 46 chromosome/ 92 chromatids

Nucleolus: yes

Mitotic spindle: no

Nuclear membrane: yes

G2

Chromatids: 46 chromosome/ 92 chromatids

Nucleolus: yes

Mitotic spindle: no

Nuclear membrane: yes

Prophase:

Chromatids: 46 chromosome/ 92 chromatids

Nucleolus: will disintegrate at the beginning of the phase.

Mitotic spindle: starts to arrange at the beginning of the phase.

Nuclear membrane: starts dissolving at the beginning of the phase.

metaphase, (chromosomes appear in the middle)

Chromatids: 46 chromosome/ 92 chromatids

Nucleolus: no

Mitotic spindle: arranges chromosomes in the middle.

Nuclear membrane: no

anaphase, sister chromatids split and move to either poles of the cell

Chromatids: 92 chromosome / 92 chromatids)

Nucleolus: no

Mitotic spindle: starts to disassemble during early telophase.  

Nuclear membrane: no

telophase at the end of telophase when the cytoplasm finally splits

Chromatids: 46 chromosome / 46 chromatids per cell

Nucleolus: yes

Mitotic spindle: starts to disassemble during early telophase.  

Nuclear membrane: will start to form at the end of telophase.

Remember that is a continuous process it has been named in 4 phases by humans to study it.

Answer:

a. adenine and guanine

Explanation:

A purines nucleotide is a combination of the heterocyclic aromatic rings, the imidazole and pyrimidine ring.  

Answer:

c. the neutral theory posits that the vast majority of mutations do not influence the fitness of individuals

Explanation:

The neutral theory proposed by Motoo Kimura states that the vast majority of changes at the molecular level (DNA) in a population happens due to genetic drift, not by natural selection, this implies that the mutations are neutral and do not give an advantage to the organisms.  

This means that mutant alleles are preserved due to the randomness of life and not because this alleles give selective advantage over other individuals of the population.

They can use those recently discovered genes and insert them in another species (fruits and vegetables) using genetic ingeniery technics so they can speed up the cell division on them, and accordingly increase the production.

Answer:

The correct answer will be option-D.

Explanation:

Thylakoid membrane is the membrane of the thylakoid present in the chloroplast which encloses thylakoid lumen.

Thylakoid is the site of the light-dependent reaction as they contain chlorophyll in their photosystem.  This membrane carries out main reactions of photosynthesis like water photolysis, ATP synthesis and electron transport chain.

If leaking is observed in this membrane then it will interfere with ATP synthesis as membrane maintains the proton gradient in and out of the thylakoid. The leaking will cause mixing the content of the stroma and lumen which will disturb the proton gradient. This proton gradient will prevent ATP synthesis.

Thus, option-D is the correct answer.

Answer:

No, the vitamins from the two sources are not different.

No, the body cannot distinguish a vitamin's source.

Explanation:

Pure L-ascorbic acid extracted from rose hips is identical in every way to pure L-ascorbic acid synthesized in a plant.

The only difference that might distinguish the two is the presence of impurities such as byproducts or solvents used in the process of extraction or synthesis. However, "pure" implies that no such impurities are present.

No, the vitamins from two different sources are not different.

Body cannot distinguish a vitamin source.

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Yeasts are essential in the production of food and beverages, such as bread and alcoholic drinks, and are also used in biotechnology and medicine for producing compounds like insulin and as a model organism in research.

Answer:

a) GG and gg

b) GG: Gg: gg

1: 2: 1

Phenotype ration

Green : yellow

3:1

Explanation:

As mentioned the two true breeding strains of zucchini were crossed.

True breeding means they must be homozygous for their genotype structure.

Let green fruit allele be represented by "G" and yellow fruit allele be represented by "g"

In first cross all green offspring were produced , thus it is clear that green fruit allele is dominant over yellow color fruit.

a) Genotype of the parents is

GG and gg

GG * gg

Gg, Gg, Gg, Gg

b) F1 cross will be between Gg * Gg

Offspring produced - GG, Gg, Gg, gg

Hence

Genotype ratio

GG: Gg: gg

1: 2: 1

Phenotype ration

Green : yellow

3:1

Answer:

Continuous traits are determined by total dosage of dominant alleles of all the regulatory gene and exhibit wide variation of phenotype within population.

Explanation:

Continuous traits such as skin color and human height are the polygenic traits and are regulated by multiple alleles of many genes. Each allele of each gene contributes to the phenotype and the effects of all the genes are additive to give a continuous trait.

The phenotype is regulated by the total number of dominant alleles of all the regulatory genes present in an individual.

Human skin color is a polygenic trait and is determined by the regulatory enzymes that determine the production of melanin pigment and its distribution.

Here, the genotype AABBCC having a total of 6 dominant alleles imparts extremely dark skin color to the individual while the genotype "aabbcc" does not have any dominant allele and give extremely light skin color.

Answer: False

Explanation:

Antibiotics cannot be used for the treatment of viral infections. Antibiotics can be used to treat bacterial infections only.

Antibiotics cannot be used to treat viral infections as it will not kill virus. Common illness that is caused by the bacteria like urinary tract infection, pneumonia, can be treated by antibiotics.

Antibiotics act by interfering the replication, transcription and translational machinery which could be either enzymes or complexes used during the processes. Since, viruses do not carry out these processes therefore antibiotics do not work on viral infections.

Hence, the given statement is false.