It is very rare to observe adaptive genetic differences between human populations (as was demonstrated in this paper). Why might this be the case? Brainstorm as many reasons as you can think of.

Answer:

Explained

Explanation:

Let me first make the opposite clear: there is a necessity in the item. For example, it is essential to try to turn an acorn into an oak. At that point the importance of snuffing it is in the downpour that suffocates it, or the heat that heats it, or the squirrel that is consuming it.

It's regarded as the "last" trigger that the acorn will do, as it can't resolutely try. Different causes are known as the "proficient" cause: "Evaporating it was the efficacy of the sun on the acorn," unlike what the sun would do to a heap of residue. It's dry right now, so the sun would just warm it up.

Hume agreed that we could confirm that, on the grounds that the movement of billiard balls on each other gives the mind the requirement of believing one ball pushes the other— bearing in mind that we have seen that we believe this impact— that since it occurs while we see it, we expect it and conclude that it will repeatedly do something very close.

In any case, he claims we trust it just because that's the way our psyches work, not because we can "demonstrate" any further that a billard ball hitting another is going to move it, but because our brains only act to make us accept we can really decide the cause.

Final answer:

David Hume's statement reflects his view that causality and moral necessity reside in our perceptions and sentiments, not in objects or facts. By emphasizing experience and subjective emotion, Hume presented a philosophy where 'ought' cannot be derived from 'is', and causality is inferred, not intrinsic.

Explanation:

The statement "Necessity is something in the mind, not in the objects" refers to David Hume's understanding of causation and moral judgments. Hume challenged the conventional thinking of his time by asserting that what we consider necessary, like the cause of an effect, does not exist inherently in objects but is a construction of the human mind based on experience and the constant conjunction of events. Morality, in Hume's view, stems from human sentiments and cannot be deduced from facts alone; it is not a matter of objective fact but of subjective feeling.

Hume argued that while we may perceive certain events as constantly conjoined, it is a product of habituation rather than an intrinsic truth of the objects themselves. This line of reasoning led Hume to posit that we cannot derive an 'ought' from an 'is' – suggesting that moral principles cannot be concluded directly from observations of nature. Furthermore, Hume questioned whether there can be a necessary being at all since we can conceive of any being's nonexistence without contradiction.

In essence, Hume believed that causality is not a priori knowledge but an inference from our experiences. As for morality, it is based on sentiment and subjective perceptions rather than objective reality, implying that our sense of duty and moral judgments are not embedded in objects or facts, but in our emotional responses to them.

Answer:

Pleiotropy

Explanation:

Marfan syndrome has several signs and symptoms depending on the individual affected.

The main manifestations of the disease are related to the skeletal system, in which the affected individual presents with elongated limbs, elevated height, scoliosis and thoracic deformations; the cardiac system, characterized by mitral valve prolapse (closing of the upper and lower chambers of the left side of the heart) and dilation of the aorta; and the ocular system, characterized by a detachment in the lens of the eye, and myopia.

The ability of genetic defects such as Marfan syndrome to reach such distinct organs is called pleiotropy.

Answer:

Pleiotropy

Explanation:

Pleiotropy is a genetic situation in which a single gene influences or controls the expression of several phenotypes. Consequently, any change that happens to pleiotropic genes always affect multiple characters on the respective organisms.

From the information available, it is obvious that the gene for Marfan syndrome affects the limb, the cardiovascular system and the eye of subjects. Hence, Marfan syndrome gene is a pleiotropic gene.

The correct option is B.

Answer:

Explanation:

Blood group is controlled by 3 allele (Ia, Ib and i). So the following results are possible

So if non-disjunction had occurred in father then his gametes would contain both Ia and Ib, which when fertilized with ovum having i allele would result in IaIbi which will have blood type AB.

Non-disjunction in female would produce ovum having 2 copies of allele i (or ovum having ii). And gametes of normal male will have Ia and Ib. So if this abnormal ovum (having ii) fertilized with male gamete having allele Ia then zygote will have genotype of Iaii which will be blood type A.

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Answer:

Tetanic spasms/ tetanic contractions

Explanation:

Tetanic spasms occurs when a muscle has a sustained contraction because of an increase in action potential in skeletal muscles

Incomplete tetanus occurs when muscle fibers are stimulated at a rate that does not allow for complete relaxation between stimuli.

In biology, the phenomenon described in the question is known as incomplete tetanus. Incomplete tetanus occurs when muscle fibers are stimulated at a rate that does not allow for complete relaxation between stimuli. This leads to sustained, but not maximal, muscle contractions.

For example, if muscle fibers are stimulated at a rate of 30 stimuli per second, there is not enough time for the muscle to fully relax between each stimulus. As a result, the muscle remains partially contracted, leading to incomplete tetanus.

This phenomenon can be observed in the body during activities that require sustained muscle contractions, such as gripping objects tightly or maintaining a constant posture for a long period of time.

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Answer:

The correct answer is A. It uses RNA that is already a component of telomerase.

Explanation:

When DNA is synthesized, a part of each end is lost. So, therefore, the telomerase uses an RNA that's already part of the enzyme, so the lost information won't be missing in the new DNA.

Telomerase uses its inherent RNA component as a template to synthesize DNA, extending telomeres and maintaining chromosome integrity.

To synthesize DNA, telomerase uses an RNA template that is already a component of the enzyme. Specifically, this RNA template is referred to as telomerase RNA (TR) or TERC (TElomere RNA Component), which includes a segment that provides the template for the addition of telomere repeats to the ends of chromosomes. The enzyme tacks on several sequences of DNA nucleotides that complement the RNA template. The process is mediated by the enzyme's protein component known as TERT (TElomere Reverse Transcriptase), which acts as a reverse transcriptase, synthesizing DNA based on the RNA template provided by the telomerase itself.

(a) Reason for the heart beating fast:

(b) Organs involved along with the heart to help Ravi complete his race:

Answer:

C. Positive feedback results in increases in some parameter (such as body temperature), whereas negative feedback results only in decreases to the paramenter

Explanation:

Positive and negative feedback are essential to the body's homeostasis, or to maintain balance and regulate the internal environment of organisms; that is to say, they are important for the organisms to self-regulate themselves. Positive feedback is in the same direction as the initiating stimulus as they amplify the original stimulus. Positive feedback leads to an increase in a reaction, thus amplifying the effects of a reaction. However, negative feedback decreases a reaction; negative feedback stabilizes the system.

Positive feedback enhances or amplifies the initial stimulus, while negative feedback seeks to bring the system back to its normal state after a change. This thus differentiates the two in terms of system response, rather than benefits to the organism.

The major difference between positive feedback and negative feedback is the way they respond to changes in the system. Option B is correct.

In Positive feedback, the response enhances or amplifies the initial stimulus. For instance, during childbirth, the release of oxytocin enhances contractions, which is an example of a positive feedback loop.

In contrast, negative feedback aims to maintain homeostasis by bringing the system back to its normal state after a change. For example, when body temperature rises, sweat is produced to cool the body, bringing the temperature back to normal.

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Answer:

A. destruction of the beta-lactam ring of the penicillin

Explanation:

Penicillins and other antibiotics in the beta-lactan family usually contain a characteristic four-membered ring of beta-lactam.

A penicillin is capable of killing bacteria by binding β-lactam to DD-transpeptidase (a bacterial enzyme that binds peptidoglycan chains to form rigid moving cell walls), inhibiting its activity and preventing the formation of a new cell wall.

Without a cell wall, bacterial cells become vulnerable to external water and molecular pressures, and thus die quickly.

Bacteria can generate resistance to penicillin by producing beta-lactamase, a bacterial enzyme that destroys the penicillin beta-lactan ring, rendering it ineffective.

An example of penicillin-resistant bacteria is Staphylococcus aureus, which produces high amounts of β-lactamase. This bacterium can cause skin, blood or lung infections.

Penicillinase causes bacterial resistant by hydrolyzing and breaking the beta-lactam ring of penicillin, which inactivates the antibiotic and prevents it from inhibiting bacterial cell wall synthesis.

The action of penicillinase, which causes bacterial resistance, is best described as the destruction of the beta-lactam ring of the penicillin. Penicillinase is a type of beta-lactamase enzyme that bacteria produce to defend against penicillin-class antibiotics. This enzyme targets the crucial beta-lactam ring structure within the penicillin molecule, breaking it open and thus inactivating the antibiotic. Inactivation of the drug occurs through hydrolysis of the beta-lactam ring, which is essential for the drug's bactericidal activity, as it prevents the synthesis of bacterial cell walls.

Answer:

Action potentials.

Explanation:

Receptors are present in the body surface that helps in the detection of the changing inside and outside environment of the body. Different receptors are sensory receptors, baroreceptors and chemoreceptors.

Action potential is the transmission of nerve impulse that occur due to the change in the electric potential of the cell. The information from the baroreceptors occurs by the propagation of the action potential.

Thus, the correct answer is option (c).

Answer: Your innate internal defenses have been activated.

Explanation:

The ant bite the feet of the child and the ants released some chemicals(venom)  in the body of the child.

This is recognized by the immune system of the body and the innate defense in the body starts.

Serious reactions takes place in the body in response to the ant bite. It is more common in the children as compared to that of adults.

Explanation:

This would be an example of secondary homeostasis

During wound healing, which happens after bleeding from a cut, the homeostatic response is clotting; primary homeostasis involves the formation of a platelet plug at the site, from platelets within the blood

Fibrinogen and platelets form a clot, in order to prevent blood loss and infection.  Fibrin is formed through the activation of coagulation factors which stabilise the plug.

Further Explanation:

The nervous system is subdivided into; the central nervous system (CNS), which includes the brain and spinal cord, within the vertebral column; and the peripheral nervous system, which includes nerves that branch into the rest of the body from the brain and spinal cord. Nervous tissue responds to electrical impulses, allowing for communication between different regions of the body.

The peripheral nervous system is further divided into the somatic nervous system responsible for carrying out sensory and motor information between the peripheral nervous system- including sensory organs like the eyes; and central nervous system; and the autonomic nervous system (ANS) which regulates involuntary bodily functions like heartbeat, breathing and blood flow. The ANS is mainly acts unconsciously and affects smooth muscle and internal organs. It is related to homeostasis- where the body maintains a constant internal balance in pH, temperature, blood pressure etc.

During homeostasis the body maintains a constant internal balance in pH, temperature, blood pressure etc. Cells in a multicellular organism become specialized for particular tasks and communicate with one another in order to maintain homeostasis. Within the human body these are known as hormone cascades, where several complex steps occur- the tissues signal to one another with the use of hormones released by the endocrine system. The regulation (increase and decrease) of these secretions is achieved by negative feedback loops, where the release of certain substances during a cascade in turn halts the secretion of hormones at earlier stages.

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Answer:

Explanation:

Mutagen:

It's any agent that can cause changes to the a cell genetic makeup by altering the deoxyribonucleic acid (DNA)

It can be a Physical mutagens (e.g X-rays), chemical mutagens e.g Nitrous acid or biological mutagens as in transposons

Examples of mutagens that cause genetic changes that can be "corrected" by re-exposing cells to the same mutagen are the ones that caused base substitutions (e.g nitrous acid) and Frameshift mutations (e.g proflavin)

A mutagen that do not cause genetic changes like deletion that can be "corrected" Such as by re-exposing cells to the same mutagen is the X rays.

Some mutagens cause genetic changes that can be 'corrected' by re-exposing cells to the same mutagen, such as UV radiation and thymine dimers. Other mutagens, like chemicals inhaled while smoking, cause mutations that cannot be 'corrected' by re-exposure.

Mutagens are agents that cause mutations in DNA. Some mutagens cause genetic changes that can be 'corrected' by re-exposing cells to the same mutagen. An example of this type of mutagen is UV radiation, which can cause the formation of thymine dimers in DNA. If not repaired, the dimers can prevent the formation of the double helix. However, cells have DNA repair mechanisms that can recognize and repair thymine dimers.

On the other hand, some mutagens do not behave in this way. For example, chemicals like those inhaled while smoking can modify the bases in DNA, changing their base-pairing properties. These modifications can lead to mutations that cannot be 'corrected' by re-exposure to the same mutagen.

Answer:

The correct answer will be option- A

Explanation:

The protostomes and deuterostomes are the classification of the animal kingdom based on the stages of embryological development.

In protostomes, the mouth develops from the opening called blastopore side whereas anus develops secondarily whereas, in the deuterostomes, the anus develops from the blastopore while the mouth develops secondarily.

This difference begins as a result of the cleavage pattern formed during the initial stages of the embryo that is in protostomes the cleavage pattern is spiral whereas in the deuterostomes the cleavage pattern is radial.  In the given question, one should look at their cleavage pattern and can classify the egg

Therefore, option-A is the correct answer.

To determine if the developing organism is a protostome or a deuterostome, you can observe the type of early cleavage that occurs. Protostomes exhibit spiral cleavage, while deuterostomes undergo radial cleavage.

The test you could use to determine whether the developing organism is a protostome or a deuterostome is to observe the type of early cleavage that occurs. Protostomes typically exhibit spiral cleavage, where the cells of one pole of the embryo are rotated and misaligned with respect to the cells of the opposite pole. On the other hand, deuterostomes undergo radial cleavage, where the cleavage axes are either parallel or perpendicular to the polar axis, resulting in the alignment of the cells between the two poles.

Answer

b) the number of phases

Explanation:

Answer:

Letter C

Explanation:

Action potentials are certainly a key to understand neuronal signaling, and to this day, neuroscientists are still developing specific models to try decipher how much information a bunch of neuronal spikes has to inform in distinct neurons.

Interestingly, throughout evolution action potentials have proven to be a very efficient mechanism of communication, and their most studied and most important attribute has been proved to be frequency, which is a property that depends on the source only, ie it does not change until you reach your destination. So, the right answer is Letter C.

Answer:

The answer is bronchitis. There is two types  acute and chronic.

Explanation:

It causes a cough that often brings up mucus. It can also cause shortness of breath, wheezing, low fever, chest tightness.

Answer:

a. The apparatus that was used to distinguish heavy DNA from the light ones were the centrifuge tubes. The samples of DNA gathered are placed in the centrifuge tubes comprising cesium chloride. The light and the heavy DNA get distinguished on the basis of density after performing high-speed centrifugation for the duration of two days.  

b. At the time of the beginning of the study, the three prevailing models for the replication of DNA were conservative, semi-conservative, and dispersive. According to the conservative model, the original parent strands remained in combination post replication, and the daughter duplex is formed of newly produced DNA.  

On the basis of the semi-conservative model, the two DNA duplexes formed at the time of replication exhibits one of the parental strands and one newly produced strand. While on the basis of dispersive model, the two new DNA duplexes comprise segments of parental and daughter strands.  

c. The conservative model for the replication of DNA was ruled out definitively by performing density gradient experiments.  

d. The dispersive model was discarded by using heat to denature the DNA duplex, and by comparing the densities of the single-stranded DNAs. If this model was accurate then the strands would have exhibited intermediate density.  

Answer:

The correct answer will be option-C

Explanation:

The pancreas is a small pear-shaped gland present in the abdomen and surrounded by the stomach.  The pancreas acts as both endocrine (secretes glucagon and insulin hormones) and exocrine (secretes digestive enzymes).

In the given question, the pancreatic part removed from the rat results in the loss of appetite as when insulin is not produced in the body results in uncontrolled sugar levels in the body. This leads to the loss of water from the body to the urine and as a result, the loss of appetite is observed.

Since the endocrine portion controls the insulin production therefore, option-endocrine is the correct answer.

Answer:

The correct answer would be - "we will be able to enjoy more structure in our house".

Explanation:

Neurodevelopmental disorder case of a children need structure, short tasks to be more functional. It is tough and not able to do well as the children with neurodevelopment disorder can not be sit still for longer period of time and are not easily adapt any  type of change in routine. So going out in crowded places or bus rides may be tough to accomplish.

Noises places are also be tough with such children so the nurses teaches the parents to perform instructed tasks and structures to keep them functional as such kids have disruptive behaviors and lack of focus.

Thus, the correct answer is - "we will be able to enjoy more structure in our house".

Answer:

In order to produce human insulin in a bacterium you need to isolate the mature mRNA (after the excision of the introns), produce a DNA copy using the enzyme retrotranscriptase, clone the gene in an expression vector and transform bacterial cells with this genetic construct to produce the insulin.

Explanation:

Eukaryotic cells perform a process called splicing, in which introns (the non-coding fragments of the gene). are excised from the mRNA Prokaryotic cells (i.e. bacteria) don’t perform this process. So, in order to produce a recombinant protein in a bacterium, insulin in this case, the best strategy should be to produce a complementary DNA (cDNA) of the mature mRNA (AFTER the splicing process, the excising of the introns).

Answer:

The correct answer will be- a microorganism can mutate or change with time and can become virulent.

Explanation:

If a bacteria is considered harmless or avirulent then the bacteria will not necessarily affect the animal species.

But when the species come into contact with other sick species caused by the microbe will make the bacteria virulent. This shows that bacteria can change with time depending on the environment it is living in.

Thus in the given question, bacteria can change and mutate with time and can become virulent from avirulent species.

Final answer:

A harmless microorganism in one species may become harmful if it adapts to a new species, suggesting the dynamic nature of microbial-host interactions.

Explanation:

From the quote by Louis Pasteur, a reasonable inference is that microorganisms which are harmless in humans or a specific animal species could potentially become harmful if they come into contact and adapt to other species. The process of adaptation and increasing virulence in a new host species can potentially lead to new diseases affecting humans or domesticated animals.

This highlights the dynamic nature of microbial-host interactions and the potential for previously innocuous microbes to evolve and pose threats to health.

Answer:

1/64

Explanation:

This cross is a trihybrid cross because it involves three genes. The cross is said to be a self-fertilization of plant heterozygous for the three traits i.e. two plants which have a combination of dominant and recessive alleles for each trait is crossed.

Let's say the three genes involved are genes P, Q and R. Where P, Q and R alleles are dominant over p, q and r alleles respectively. Thus, a heterozygous plant will possess PpQqRr genotype.

In concordance with Mendel's law of independent assortment, the alleles get sorted into gametes independently of one another. Meiosis occurs and each heterozygous plant (PpQqRr) produces 8 possible combinations of gametes viz; PQR, PQr, PqR, Pqr, pQR, pQr, pqR and pqr.

These gametes are crossed using a punnet square (see attached image) to produce a total of 64 possible offsprings i.e. 8 (male gametes) × 8 (female gametes).

A phenotypic ratio of 27:9:9:9:3:3:3:1 will result from a trihybrid cross involving two species heterozygous for the three genes/traits. (Check attached image for details of their phenotype)

According to the question, the fraction of offsprings expected to be homozygous dominant for the three traits is 1 out of 64 possible offsprings = 1/64

Note that, homozygous dominance is a state where the alleles for each gene are the same type i.e PPQQRR. Since P, Q and R are the dominant alleles.

Although 27 of the 64 offsprings are dominant for each trait but only one is homozygous dominant (PPQQRR) for the three traits, the other 26 are dominant but had one or more recessive genes i.e. are heterozygous for some/all genes

Final answer:

The proportion of offspring from a heterozygous plant self-fertilization that are homozygous for three dominant traits is 1/64.

Explanation:

If a plant that is heterozygous for all three characters is allowed to self-fertilize, the proportion of the offspring expected to be homozygous for the three dominant traits is found by considering each trait independently. Using the product rule for independent assortment, the probability for each trait to be homozygous dominant is 1/4 (since for a single trait, there is a 1:2:1 ratio for YY:Yy:yy genotypes). With three traits, this is (1/4) × (1/4) × (1/4), which equals 1/64. Therefore, the fraction of offspring that are homozygous dominant for all three traits is 1/64.

Answer:

The answer is people with either  XX or XY chromosomes

Explanation:

People with either  XX or XY chromosomes

Answer:

The answer is the turns are formed from complementary base pairing and cause separation of the RNA transcript and RNA polymerase.

Explanation:

The turns are formed from complementary base pairing and cause separation of the RNA transcript and RNA polymerase.

Answer:

transitional forms

Explanation:

the form of organism  that exhibit the shape which is intermediate between the  their ancestors and the   descendants  (just like a father between grandfather and grandson) is known to be the transitional form of respective organism.

The transitional form organisms or fossils have some traits and similarities which are common to both ancestors and the   descendants.

Answer: yellow

Explanation:

Phenotype refers to the observable physical properties of an organism. phenotype is determined by its genotype. Phenotype is a description of your ones physical characteristics.

From the question, the first locus which is a white squash (W) is dominant to colored squash (w) and the second locus yellow (Y) is dominant to green (y).

ww(that is; the coloured squash) are not dominant while y (that is the green) is also not dominant but only the Y(that is ; the YELLOW squash) is DOMINANT.

Therefore, the phenotype of the squash will be Yellow.

Answer:

The correct answer is Albuterol is not a vasoconstrictor.

Explanation:

Anaphylaxis is a dangerous allergic reaction caused by any chemical contained in a medicine or protein antigens that can cause death by suffocation if not treated quickly.

When the immune system is faced with a substance to which the body is allergic, it automatically releases chemicals that cause the allergy. One of these chemicals released is histamine.

In the case of anaphylaxis, the blood pressure drops suddenly, the airways close and extreme vasodilation occurs. Vasodilation is caused by histamine and what it produces is that the blood vessels dilate, and produce an outflow of fluid. If this does not stop immediately, the patient may suffer bronchoconstriction where their bronchial tubes narrow due to histamine.

Albuterol is not vasoconstrictor, that is, it is not able to close these vessels to prevent the passage of fluid, therefore the most appropriate in these cases is to use epinephrine.

This medicine is vasoconstrictor, which will generate a relaxation in the muscles of the airways and narrow the blood vessels.

Final answer:

Epinephrine is favored for anaphylaxis due to its ability to act on both alpha and beta-adrenergic receptors, raise blood pressure, and provide anti-inflammatory effects, which are essential in treating the severe symptoms of anaphylactic shock.

Explanation:

Epinephrine is the first choice for treating anaphylaxis because it exerts effects through both α- and β-adrenergic receptors. While both epinephrine and albuterol are used for their bronchodilation properties to improve the amount of oxygen a person can inhale, epinephrine also raises blood pressure and has anti-inflammatory effects on the immune system, which are crucial in counteracting severe allergic reactions and the quick drop in blood pressure seen in anaphylaxis. On the other hand, albuterol is typically prescribed for asthma as it primarily acts on the β2-adrenergic receptors to relax the bronchial muscles, and it lacks the broader systemic effects of epinephrine that are necessary to manage anaphylactic shock.

Anaphylaxis involves systemic mast cell degranulation causing a rapid decrease in blood pressure and bronchial smooth muscle contraction, potentially leading to fatal anaphylactic shock. Since epinephrine raises blood pressure and relaxes the bronchial smooth muscle, it is life-saving in these situations. The rapid administration of epinephrine is crucial, and patients with known severe allergies are advised to carry automatic epinephrine injectors.

Answer:

c. ligand-gated ion channel

Explanation:

As soon as a signaling molecule binds a ligand-gated ion channel it leads to the opening of these ion channels which in turn causes ions to either rush inside or outside of the cell on which they are located leading to the disruption of distribution of initial ion concentration.  

As the name suggests, these kind of receptors are also known as ionotropic receptors.

For example: Binding of acetylcholine hormone to it's receptor which is a ligand gated cation channel located at post synaptic muscle cells leads to the opening of Na⁺ ion channels. As a result of this, Na⁺ rushes into muscle cell leading to the change in the concentration of Na⁺ inside the muscle cells. This is known as depolarisation.

Wilona continually encourages her team to work independently from her, the group leader. She does this by encouraging group cohesion. Wilona is an example of a transformational leader, which is option A.

Wilona, who encourages her team to work independently of her, is an example of a transformational leader. Transformational leaders are those who inspire and motivate their followers to achieve extraordinary outcomes and surpass their personal goals. They focus on building relationships, team cohesion, and a vision that resonates with their followers. In this case, Wilona is promoting group cohesion and empowering her team to work independently, which is a characteristic of a transformational leader.

Hence, Wilona continually encourages her team to work independently from her, the group leader. She does this by encouraging group cohesion. Wilona is an example of a transformational leader, which is option A.

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Answer:

Universal DNA attribute: nucleotides A,C,G,T; triplet; code for amino acids.

DNA attribute unique to particular individual: DNA sequence; size of genome.

Explanation:

As all the organisms on the earth are evolved from a single organism or individual, therefore, all the organism on the earth share some universal attributes like nucleotide that are used to make DNA are same in all the individuals as all use A, T, G, C nucleotide to make DNA.

Triplet codon for a particular amino acid is also universal so a triplet codon UUU codes for phenylalanine in all the individual present on earth. Due to evolution organisms generated some difference in their genome like genome sequence in almost every individual is different and genome size also differ between organisms. So DNA sequence and size of the genome are unique to a particular individual.

Answer:

Proteins synthesized in the ER are packaged into vesicles, which then fuse with the Golgi apparatus. These cargo proteins are modified and destined for secretion via exocytosis or for use in the cell.

Explanation:

Answer:Cool thanks

Explanation:djdhbd