Which of the following is NOT a property of smooth endoplasmic reticulum? Which of the following is NOT a property of smooth endoplasmic reticulum? steroid hormone synthesis stores steroid hormones stores calcium forms transport vesicles to move proteins to the Golgi apparatus In liver cells, it contains detoxifying enzymes.

Answer:

Nucleation

Explanation:

The first step of formation of new phase, structure or self-assembly is called as Nucleation.

It is mentioned in the book of Molecular Biology of the Cell that whenever, In-vitro polymerization of micro-tubules and actin filament occur the first step is called nucleation. In other words Lag Phase.

Reference: Alberts B, Johnson A, Lewis J, et al. Molecular Biology of the Cell. 4th edition. New York: Garland Science; 2002. The Self-Assembly and Dynamic Structure of Cytoskeletal Filaments.

Answer:true

Explanation:

Answer:

The correct answer is - cellular organization.

Explanation:

The first and major characteristic of life is a cellular organization out of eight major characteristic features of life every living organism possesses. It says that living things are made of cells. The cellular organization is the fundamental base of the growth and evolution of life.

The evolution of life includes the organization of the micromolecules to the macromolecules that form cell organelles and organelles to a cell, cells form tissue and tissues to organ and organ to organ system and ultimately this complex organization forms the whole organism such as cat.

Thus, the correct answer is - cellular organization.

The characteristic of life being described in the question is the 'biological organization' or 'biological hierarchy'. It includes the hierarchical structure from atoms to organisms.

The organized structure from cells to systems in a cat describes the characteristic of life known as biological organization or biological hierarchy. Life is structured in a hierarchical manner from the microscopic level to the macroscopic level. This starts from atoms, forming molecules, which combine to form cells. Cells group together to form tissues, tissues group to form organs, organs group to form organ systems, and organ systems form an organism.

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5 Paramecium could be accommodated in this FOV.

Explanation:

FOV refers to the field of view of the microscope.

It is the maximum length or area of specimen you can observe in a single view.

If a single paramecium occupies 20 % of the Entire FOV.

Then the number of paramecium that will be accomodate 100% of FOV will be given by ,

[tex]\frac{100}{20} = 5[/tex] Paramecium.

which is equal to 5.

Five Paramecia can be accommodated within the field of view of a microscope at 40X magnification power, assuming 100% utilization of the FOV.

The question revolves around the magnification of a single Paramecium when viewed under a microscope at 40X magnification power. Since the Paramecium occupies 20% of the field of view (FOV) at this magnification, we can infer that a total of five Paramecia would fit into the FOV because 100% divided by 20% equals 5. It is important to note that this is an ideal scenario assuming the Paramecia are lined up end to end without any space in between.

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Further information from another source:

Jill is heterozygous for gene A and is going to have a child with Jack, who is homozygous recessive for gene A.

Answer:

Maternal meiosis II

Explanation:

Jill has the genotype Aa, and Jack has the genotype aa. Jack can only contribute the a, whereas Jill can contribute A or a. For the child to have 2 copies of the A allele and two copies of the a allele, that means the nondisjunction must have happened in the mother.

As for the stage of meiosis, non-disjunction in meiosis I means that homologous chromosomes fail to separate properly. This would mean that the child would inherit Aa from its mother and a from its father. This is not the case.

Non-disjunction in meiosis II means identical sister chromatids fail to separate properly, which means the child would inherit either aa from its mother, or AA from its mother, and a from its father. This could give the genotype AAa. Therefore, nondisjunction must have occurred in maternal meiosis II

Nondisjunction, leading to an AAa genotype in a child, suggests an extra chromosome from an event in either meiosis I or II in one of the parents. It's not possible to determine exactly which parent or stage without additional information, although the specifics of the genotype hint at meiosis II.

If Jack and Jill have a child with an AAa genotype, nondisjunction must have occurred. Given that humans normally have two alleles for each gene (one from each parent), the presence of three alleles suggests an extra chromosome resulting from nondisjunction. Nondisjunction can occur during either meiosis I or II, and since we have an imbalance in the number of A alleles, it indicates a nondisjunction event in one of the parents.

If we have gametes Ab and aB, the genotype produced should be in a 1:2:1 ratio of AAbb:AaBb:aaBB, provided that no errors such as nondisjunction occurred. However, AAa indicates an extra A allele, which is not expected in typical Mendelian inheritance and is a clear sign of nondisjunction.

Without further information on the parental genotypes, or when nondisjunction occurred, we cannot determine the exact parent or stage of meiosis in which this occurred. However, examining the parental phenotypes and potential genotypes could provide additional clues, as a nondisjunction during meiosis I would result in gametes with either two copies or no copies of the chromosome containing the A allele, whereas nondisjunction in meiosis II would result in one normal gamete, one gamete with an extra A allele, and two gametes with a single A allele. Given the child's genotype of AAa, it is conceivable that nondisjunction occurred in one of the parents during meiosis II.

Note that this answer assumes a homologous pair of chromosomes containing the A allele and does not consider the possibility of a de novo mutation or other complex genetic events.

Answer: Differences in osmotic concentrations

Explanation: With solvent particles flowing into the cell, it means the concentration outside of the cell is higher and with initial volume less than 50%, then that within the cell is lower. This results in an osmotic gradient, allowing particles in areas of higher concentration (outside the cell) to flow into the cell, an area of lower concentration.

When the cell is in a hypotonic solution, the interior of the cell is more concentrated than the exterior. When the cell volume is below 50%, water flows into the cell to reach a dynamic equilibrium.

---------------------------------

If the initial volume of the cell is below 50%, it means that the interior of the cell is more concentrated than the exterior.

      concentration inside the cell  >  concentration outside the cell.

The exterior of the cell represents a solution in which the cell is immersed.

When talking about solutions, we can classify them as follows,

If the initial volume of the cell is below 50%, it means that the cell is in a hypotonic solution.

When a cell is in a hypotonic solution, through osmosis, water moves toward the cell.

Osmosis is the phenomenon that occurs when two dilutions of different concentrations -in this example, the interior of the cell and the solution- are separated by a semipermeable membrane.

The membrane allows the pass of water but not solute. Hence, water can move from the most diluted side to the less diluted one.

Water tends to go from the hypotonic solution to the cell interior and keeps doing so until concentrations are equal in the cell interior and exterior.

This is, the interior and exterior of the cell reach a dynamic equilibrium.

Let us remember that the term homeostasis refers to stability, balance, or equilibrium.

It is the constant interchange of substances between the cells and the intercellular space, until they reach a dynamic equilibrium, despite the constant environmental variations.

So, when the initial volume of the cell is below 50%, solvent particles flow into the cell to maintain homeostasis, which represents a dynamic equilibrium.

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Answer:

Ovule becomes seed after fertilization and ovary becomes the fruit

Answer:

p53  or  Tumor protein (TP53 ) is the Guardian of  genome. located on locus 17p13.1  on chromosomes

It is  the gene that regulates  the protein that codes for process of cell cycle of ( mitosis and meiosis)' and cell death therefore suppresses the  uncontrollable   cells  growth which can  lead to tumor.

TP53 has relatively high molecular mass   of 53 kilodalton fractions in the cell ; this characteristics together with the ability to  conserve cell cycle stability  in  multicellular  organism  by stopping   mutation of  genetic materials by suppressing tumor  made it to be called the Guardian of genome.

ROLES

→ p53 functions by arresting the growth of cells to stop uncontrolled growth.

←it also  repair damage DNA to guide against mutation, by activation of protein involved in DNA  repair.

and  

←Promotes death of the cells (Apoptosis,) so that damaged or altered DNA would  not be transcript and translated  in the cell.

Answer: Option D.

Research using an animal must demonstrate a CLEAR SCIENTIFIC PURPOSE.

Explanation:

A research is a systematic approach or methodology used to investigate a study or sources to get some fact. Animal research is mainly done for medical research and vertebrates like cats are mostly use.

Research using an animal most demonstrate the clear purpose i.e you state the research problem, state your hypothesi, the methods used and conclusion.

The subject of the question is Biology and it pertains to the ethical considerations and requirements involved in research using animals.

The subject of this question is Biology and it pertains to the ethical considerations and requirements involved in research using animals. When conducting experiments on animals, researchers must demonstrate a clear scientific purpose to justify the use of animals. This means that the research must have a valid scientific objective and contribute to the advancement of knowledge in the field. The other options listed in the question are not accurate representations of the requirements for animal research.

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The feedback mechanism is negative which is responsible for restoring homeostasis after high TSH levels.

The thyroid hormone is regulated by thyrotropin-releasing hormone gene which is a negative feedback. The hypothalamus is responsible for the release of thyrotropin-releasing hormone (TRH) that regulates the thyroid hormone. Thyroid hormone production is controlled by the hypothalamic-pituitary-thyroid axis.

Thyrotropin-releasing hormone (TRH) signals the anterior pituitary in order to release thyroid stimulating hormone which regulates the release of thyroid hormone so we can conclude that the feedback mechanism is negative which is responsible for restoring homeostasis after high TSH levels.

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To restore homeostasis after high TSH levels, the body uses a negative feedback mechanism where elevated thyroid hormone levels trigger a drop in TSH production. This cycle restores balance in the body. However, disruptions to this process, like autoantibodies binding to TSH receptors, can lead to overproduction of thyroid hormones and imbalance.

The feedback mechanism functions to restore homeostasis after high TSH levels through a process known as negative feedback. When TSH (Thyroid Stimulating Hormone) levels are high, the body responds by releasing thyroid hormones (T3 and T4). These hormones are often referred to as metabolic hormones because their levels influence the body's basal metabolic rate. They also play a crucial role in the regulation of the body's energy use and heat production.

In a classic negative feedback loop, the elevated levels of thyroid hormones in the bloodstream then trigger a drop in production of TSH, allowing the body to restore a state of balance or homeostasis. However, in some cases, the negative feedback system can be disrupted. For instance, autoantibodies could bind to the TSH receptors, causing an overproduction of thyroid hormones because the negative feedback system is unable to function as it normally would. This can lead to imbalances in the body, such as those seen in conditions like hyperthyroidism.

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answer is D  

Explanation:

Polar covalent bonding is a type of chemical bond where a pair of electrons is unequally shared between two atoms. ... If the electronegativity of two atoms is basically the same, a nonpolar covalent bond will form, and if the electronegativity is slightly different, a polar covalent bond will form.

Considering the definition of covalent bond, the correct answer is option D: Nonpolar covalent bonds involve two atoms that have equal electonegativity whereas polar covalent bonds involve two atoms that are unequal in their electronegativity.

A covalent bond is a force that joins two atoms of non-metallic elements to form a molecule. Atoms share pairs of electrons from their most superficial layer (called the valence layer) to achieve the stability of the molecule that has been formed with the bond and thus comply with the octet rule.

On the other side, electronegativity refers to the tendency of the atom of a given element to attract electrons.

So, the covalent bond between two atoms can be polar or nonpolar.  

Polarity depends on the difference in electronegativity of the joining elements. The greater the electronegativity difference, the greater the polar character of the bond. The most electronegative element will be the one that most strongly attracts the shared electrons, then a negative partial charge will be generated on said element, while a positive partial charge will be generated on the other element (less electronegative).

Finally, nonpolar covalent bonding occurs when pairs of electrons are shared between atoms that have the same or very similar electronegativity, favoring an equitable distribution of electrons.

In summary, the correct answer is option D: Nonpolar covalent bonds involve two atoms that have equal electonegativity whereas polar covalent bonds involve two atoms that are unequal in their electronegativity.

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Answer: difficulty in breathing.

Explanation: Rate of respiration becomes irregular per minute which is a sign of respiratory distress. They may be breathing rapidly.  They will look uncomfortable, they may lie-down due to difficulty in breathing.

In this condition, try to check the air ways or pulse of the patient.  

Answer:

Explanation:

Obvious and visible signs of respiratory stress include: fast respiratory rate, wheezing, cyanosis (blue discoloration of the skin), sweating, audible breathing, moving backwards of the chest and speech incoherence.

Answer:

The correct answer is - a. underweight.

Explanation:

Smoking is advised to quit before pregnancy so new born could be risk free of health issue caused by smoking. The major pregnancy risks of the smoking heavily during pregnancy for new born babies are preterm birth, cleft birth defects.

The heavily entire 9 month smoking leads to underweight baby due to various reason including preterm birth. SIDS is also one of the risks of the smoking even after the pregnancy.

Thus, the correct answer is - a. underweight.

Answer:

A crop disease becoming resistant to medicine

Explanation:

The carrying capacity of a habitat is the maximum number of individuals of a given species it can support without depleting the available resources. The carrying capacity for humans in a certain region would decrease because of a crop disease becoming resistant to medicine that would reduce the yield. This would lead to increased starvation and malnourished people.

Answer:

A crop disease becoming resistant to medicine

Answer: One H⁺ ion ie required in converting ATP and inorganic phosphate to ATP

Explanation:During oxidative phosphorylation, high energy electrons released by hydrogen carriers are shuttled through the electron transport chain. The released energy is used to translocate 3 H+ ions from the matrix, creating an proton motive force, which will cause 1 H+ ion to move down the electrochemical gradient and diffuse back into the matrix (chemiosmosis) which is facilitated by ATP synthase. As the H+ moves through the ATP synthase this triggers the molecular rotation of the enzyme, synthesizing ATP

Final answer:

During oxidative phosphorylation, 4 H+ ions are needed to produce and export one ATP molecule in mitochondria, even though only 3 H+ ions are directly involved in the synthesis of one ATP molecule.

Explanation:

During oxidative phosphorylation in mitochondria, 4 H+ ions are needed to synthesize and export one ATP molecule, even though only 3 H+ ions need to be translocated by the ATP Synthase Complex to synthesize one ATP. This is because the process involves a rotation of the F₁ subunit inside the F₁(aß)₃ complex, which requires 12 H+ ions for a complete rotation, resulting in the synthesis of 3 ATP molecules. Therefore, to produce and export one ATP, a total of 4 H+ ions are required.

Answer:

I have attached my slides in picture format explaining full process why control of transcription is more complex in eukaryotes than in prokaryotes with examples.

Answer:Institutional Animal Care and Use Committees ( IACUC).

Explanation: it was formally introduced in 1986 with an amendment to the Animal Welfare Act and corresponding changes in U. S. public health service policy. It is the committee that investigates researcher to know if they are properly trained to perform animal procedures, as required by law.

Answer:

The molecule that is neutral, meaning it has no charge

Explanation:

Normally, water is good at dissolving ions and polar molecules, but not non-polar molecules.

A polar molecule on the other hand is one that's neutral, or has no charge, but has an asymmetrical internal distribution of charge, leading to partially positive and partially negative regions.

Answer:

8 different combinations of gametes can be produced by this mosquito, assuming no homologous recombination between chromosomes

Explanation:

The mosquito has 6 chromosomes. This means that means it has 3 pairs of homologous chromosomes. Basically, we can assume the number of different gametes by 2 to the power of 3 as their are 3 homologous pairs. This means 2×2×2 which will be equal to the amount of eight. Hence, eight different combination of gametes will be produced.

This mosquito can produce 64 different combinations of gametes.

Step 1

If a diploid mosquito is completely heterozygous at all 6 of its chromosomes (2n = 6), it means that each chromosome pair consists of two different alleles.

There are two potential alleles for every pair of chromosomes, and during gamete development, each allele can segregate independently. Thus, the number of alternative allele combinations for each pair of chromosomes determines the number of various combinations of gametes that this mosquito can produce.

Step 2

For each chromosome pair:

- There are 2 different alleles.

- Each allele can segregate independently during gamete formation.

So, for one chromosome pair, there are 2 possible combinations of gametes.

Step 3

Since there are six chromosomal pairs altogether, multiplying the number of combinations for each pair will yield the total number of possible gamete combinations:

[tex]\[2^6 = 64\][/tex]

Therefore, this mosquito can produce 64 different combinations of gametes.

Answer:

Here is the full question:

An albino corn snake is crossed with a normal colored corn snake. The offspring are all normal-colored. When the first generation progeny snakes are crossed among themselves, they produce 32 normal colored snakes and 10 albino snakes.

a. How do you know that only a single gene is responsible for the color differences between these snakes?

b. which of these phenotypes is controlled by the dominant allele?

c. a normal colored female snake is involved in a test cross. This cross produces 10 normal colored and 11 albina offspring. what are the genotypes of the parents?

Explanation:

First of all, in genetics, Phenotype are the observable physical properties of an organism; these include the organism's appearance, development, and behavior. An organism's phenotype can be determined by its genotype, which is the set of genes the organism carries, as well as by environmental influences on these genes.

Allele, which can also be called allelomorph, is any one of two or more genes that may occur alternatively at a given site on a chromosome. Alleles may occur in pairs, or we may have multiple alleles affecting the phenotype of a particular trait. The combination of alleles that an organism carries is its genotype. If the paired alleles are the same, the organism’s genotype is said to be homozygous for that trait. If they are different, the organism’s genotype is heterozygous. A dominant allele (A) will override the traits of a recessive allele (a) in a heterozygous pairing.

(a) In the question, we have two phenotypes seen in the second generation of this cross: normal and albino. Therefore, only one gene with two alleles is needed to control the phenotypes like colour of the snakes observed. The 3:1 ratio of these phenotypes in the F2 generation will be seen only if a single gene is involved.

(b) The allele controlling the normal phenotype (A) is dominant to the allele controlling the albino phenotype (a).

(c) The male parent’s genotype is aa. The normally colored offspring must receive an A allele from the mother, so the genotype of the normal offspring of the testcross is Aa. The albino offspring must receive an a allele from the mother, so the genotype of the albino offspring of the testcross is aa. Thus, the female parent must be heterozygous Aa.

Answer:

Protein electrophoresis is the process of the analayzing the present proteins in a specific mixture using the polyacrylamide or agarose gel. These gel are acts as the sieve to extract the proteins from the mixture on their character.

This is shows the migration of the protein on their various factors such as size, affinity to gel, and shape of the protein. The smaller the protein more it will move or migrate faster. Affinity t the gel of the method to the protein also affects the distance and sped of migration.

Answer: b) storing the genetic code providing substrate for the citric acid cycle providing electrons to the electron transport chain.

Answer:

The correct classification would be as follows:

Somatic Nervous System

a) Voluntary Control

b) One lower motor neuron

c) Stimulates skeletal muscle fibers

Autonomic Nervous System

d) involuntary control

e) two lower motor neurons

f) innervates cardiac muscle and smooth muscle

Explanation:

Somatic nervous system is a part of the peripheral nervous system that is responsible for the various functions such as voluntary movements of muscles. It is also responsible for the stimulating impulse in between central nervous system that include skeletal muscle.  

Autonomic nervous system is the part of the nervous system that is involved in bodily functions that function not consciously directed. Which is involved in innervates heart muscles and smooth muscles.

Thus, the correct answer is -

Somatic Nervous System

a) Voluntary Control

b) One lower motor neuron

c) Stimulates skeletal muscle fibers

Autonomic Nervous System

d) involuntary control

e) two lower motor neurons

f) innervates cardiac muscle and smooth muscle

Answer: Clock in the skin cells is called circadian clock.

Explanation:

Circadian clock is a system that requlates how the skin function and human physiology. The stem cells of basal epidermal harbors circadian clock.Circadian clock is found in some skin cells like melanocytes, keratinocytes and fibroblasts. Circadian clock found in skin cells may function by regulating cell proliferation.

Answer:

The correct answer is the number 1) It may be an essentially random process

Explanation:

Protein folding is a chemical process in which the structure of a protein assumes its functional configuration.

All protein molecules are heterogeneous, unbranched chains of amino acids. By folding and rolling to take a specific three-dimensional shape, proteins are able to perform their biological function.

The opposite process is called denaturation, in which an original protein is forced to lose its functional configuration, becoming an amorphous and non-functional chain of amino acids. Denatured proteins can lose their solubility and precipitate into insoluble solids. In some cases, the denaturation is reversible and the proteins may reenact. However, denaturation is, in most cases, an irreversible process.

In certain solutions and under certain conditions, proteins may not fold. Temperatures above or below the range in which cells usually survive, cause the protein to unfold or denature (this is why boiling causes the egg white to become opaque). High concentrations of solute and pH extremes can lead to the same result. A completely denatured protein has no tertiary and secondary structures, and exists under the designation of a random spiral. Cells sometimes protect their proteins from denaturation by heat thanks to enzymes known as companions or heat shock proteins, these help other proteins, both to fold and to stay folded. Some proteins never fold inside cells except with the help of accompanying molecules, which isolate individual proteins so that their folding is not interrupted by interactions with other proteins. The DNA configuration is maintained by another set of enzymes.

The statement concerning the process of spontaneous folding of proteins that is false is A. It may be an essentially random process.

Protein folding simply means the chemical process where the structure of a protein gets its functional configuration. The process of spontaneous folding of proteins can be may be defective in some human diseases.

The process of spontaneous folding of proteins may involve an initial formation of local secondary structure and an initial formation of a highly compact state.

In conclusion, the false statement is it can be an essentially random process.

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Answer:

If the mentioned pattern continues over several years, Split Peas will be the most frequent sub-species.

Explanation:

Answer:

Option A. True

Explanation:

Fume hoods are constructed in way that when not in use sash should be closed or lower. The reason for lowering sash is that there is an airfoil which exhaust dangerous vapor out of the room even when its shut. It continuously remove hazardous vapors out of the room. Attached is a picture of fume hood.

Answer:

The correct answer is e. the ability to replicate the genetic information accurately for the next generation

Explanation:

As there are chances of existence of life in the universe but we can not say that they will have the same type of genetic material as we have but the ability of replication of genome and the ability to pass the genetic information accurately to the next generation will be the most common feature in all genome because without genome replication and transfer life can not evolve and proceed on any planet.  

Therefore replication and genetic information transfer to the next generator is necessary. So the right answer is e.

All genomes, no matter where they exist, would contain the entire genetic information necessary for an organism's development and reproduction, have the ability to accurately replicate this information for the successive generation, and possess the capacity to vary or mutate, enabling evolution and adaptability.

Despite potential differences in the specific components of life forms originating from different parts of the universe, some universal characteristics of genomes can be hypothesized.

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Answer:

Option C . Flip-flops are very rare for phospholipids.

Explanation:

Flip-flop means that movement of phospholipds upside down. This phenomenon occur in cell membrane but very rarely. I have attached a picture for you to under stand how flip-flopping occurred.

Answer:

Animal Experiment

Explanation:

Also known as animal testing. It involves the use Animal models which are non human animals in an experiment to test the effects of a variable on its' behavior or biological system.

In the said experimental protocol, it is required that nutrient deficiency be introduced to access its effect on memory cells. Hence an animal model will be needed for this type of experiment making an animal experiment as the appropriate study design to be used.