The second messenger in the following G-protein-linked-receptor pathway is signal moleculeG protein linked receptor activated G protein adenylate cyclase -> CAMP Select one: a. signal molecule b. activated G protein c. adenylate cyclase d. CAMP

Answer:

B) K - selected species

Explanation:

Usually, large in size individuals such as whales, hipopothamus, horses and bears are K-selected species. They have a low biotic potential which means, they produce small amount of individuals in the reproduction and possess relatively stable populations.

On the ther hand, species such as fleas, rats, and rabbits (between others) are rated r-selected species, which means they have a high biotic potential; have a large amount of individuals per birth.

Final answer:

Gray whales, which have low biotic potential and typically produce one offspring every other year, are categorized as K-selected species because they live long, mature late, and provide substantial parental care to their offspring. The correct answer is B) are K-selected.

Explanation:

The question tackles the reproductive strategies of different species, specifically focusing on the biotic potential and reproductive rates of grey whales. Organisms that have low biotic potential and produce few offspring at greater intervals, such as grey whales, are generally considered K-selected species. K-selected species, like grey whales and elephants, live long, mature late, and provide substantial parental care to their fewer offspring.

On the other hand, r-selected species are characterized by early maturation, short lifespans, and the production of many offspring with little to no parental care.

Therefore, the answer to the student's question is that groups of organisms with low biotic potential, such as gray whales, that produce at most one offspring every other year are B) K-selected.

Answer: External auditory canal

Explanation: External auditory canal or external acoustic meatus is a passage that leads from the outside head to the eardrum of ear.

The structure of external auditory canal is same in all the mammals, slightly curved tube extending from the outer ear towards eardrum.

This canal is almost 2.5 cm in length with some hairs and sweat glands on the outer side to prevent insects from entering into the ear.

So, the correct answer is external auditory canal.

Answer: b. small intestine.

Explanation:

The small intestine is approximately 4.5 meters long in a living person but is 6 meters long at autopsy when the muscles relax. Digestion occurs primarily in the duodenum, which receives the pancreatic juice enzymes. The small intestine provides a large surface area for absorption. Glucose and amino acids from food are absorbed through the small intestine and enter the blood via the hepatic portal vein, going to the liver.

Answer:

D. Myosin

Explanation:

The ATP binding site at myosin also have ATPase activity and can carry out hydrolysis of ATP into ADP and inorganic phosphate. The energy released during the ATP hydrolysis by ATPase activity of myosin is required to change the position of myosin head into the docked position to allow further movement.

The component of the sarcomere with ATPase activity is myosin. Through its ATPase activity, myosin hydrolyzes ATP to allow for muscle contraction.

The component of the sarcomere that is an ATPase is d. myosin. Myosin, a motor protein, is the molecule that interacts with actin to cause muscle contraction.

ATP (Adenosine Triphosphate) attached to myosin is hydrolyzed, a process catalyzed by the ATPase activity of myosin. This releases energy and gives the myosin 'head' the ability to bind to actin, which enables muscle movement.

Unlike actin, tropomyosin, troponin, and alpha-actinin, myosin can bind and hydrolyze ATP, making it singular in its character within the structure of the sarcomere.

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Answer:

The exchange of heat when heat is transferred to a fluid, such as air or water.

Answer: two diploid cells two diploid cells

Explanation:

There are two types of division, mitosis (equational = each parent cell produces two daughter cells genetically identical) and meiosis (reductive = each mother cell produces four daughter cells with half the number of chromosomes). Mitosis is divided into steps:

Interphase: The chromatin filaments duplicate;

Prophase: At this stage, the chromosomes begin to become visible due to spiraling; The nucleoli begin to disappear; The centrioles begin to spindle fibers that will help in cell division. The core absorbs water, swells, and clutters the nuclear membrane.

Metaphase: The chromosomes are very visible as they reach the maximum of spiraling; The chromosomes attach to the spindle fibers in the equatorial region of the cell next to each other;

Anaphase: The spindle fibers begin to shorten, and as a result, each filament is pulled to the cell poles.

Telophase: The chromosomes begin to spiral out; The nucleoli and the nuclear membrane begin to appear, And the centrioles are already located in pairs in each daughter cell.

Cytokinesis: It is the breakdown of the cell in two. In animals, it occurs from the outside in (centripetal) and in vegetables from the inside to outside (centrifuge).

Answer:

two diploid cells

Explanation:

Ans:

(A). You have at least one copy of the dominant allele T

Explanation:

Tongue rolling is the capability of  individual to roll the tongue upwards in a tube-like structure. The muscles in the tongue allow this rolling movement.

Tongue rolling is related with genetic inheritance. Different genotype determines rolling of tongue. Individual with dominant allele(T)  either heterozygous dominant(Tt) alleles or homozygous dominant(TT) alleles shows the tongue rolling trait. The homozygous recessive genotype will not show tongue rolling trait. So, tongue rolling trait is determined by a dominant allele.

Thus, the correct answer is option(A).

Explanation:

some of the example of bacterial diseases are syphills,pneumonia,tetanus,and tuberculosis.diseases cause by viruses are chickenpox,small pox,measles,polio.

Answer: The parasympathetic ganglia spread out diffusely in the vicinity of the viscera, they are located near the organ.

Explanation:

The autonomic peripheral nervous system can be subdivided into three subsystems: sympathetic, parasympathetic and enteric system, based on anatomy and functions. Parasympathetic preganglionic neurons are located in the sacral marrow, in the segments from S2 to S4, in the intermediate-lateral column that the parasympathetic autonomic ganglia are located, very close to or in the organ itself.

Answer:

higher

slowest

dissolved

youthful

faster

meandering

delta

Explanation:

Answer:

given below

Explanation:

1) higher

stream is located at higher location because of high head energy of the flow will be more.

2) small

at the bottom of the stream the energy head is small.

3) dissolved

dissolved invisible load will represent 15% of mass.

4) young

when the stream is young it has huge energy and the velocity is very high.

5) faster

water flowing outside the curve flow is faster than inside the curve.

6) meander

the zig zag movement of the river is called meander and the oxbow lake is found near meanders.

7) delta

delta is present when river falls in the oceans, all the river deposits sediments in the delta.

So, the complete path is:

To trace the path of the blood from the abdominal aorta to the kidney and back to the inferior vena cava, let's list the vessels in the correct order:

Answer:

The pH of a solution containing 0.1μΜ H+ is 7

Explanation:

The pH of any solution is given by the following mathematical equation -

[tex]pH = -log[H_{+}]\\[/tex]----------- Equation (A)

Where,

[tex]H_{+}[/tex] = the concentration of hydrogen ion in the solution.

Given

[tex]H_{+} = 0.1 micro meter= 0.1 * 10^{-6} meter= 10^{-7} meter[/tex]

Substituting the given value in equation (A) , we get -

[tex]pH = -log[10^{-7}][/tex]

[tex]= -(-7)\\= 7[/tex]

Hence, The pH of a solution containing 0.1μΜ solution is 7

The genotype of the purple plant would be PP,

The genotype of an organism generally refers to the genetic composition of the organism. Each gene is represented by 2 alleles, otherwise known as alternative forms of genes.

When the same alleles represent a gene, such gene is said to be homzygous, but when the alleles are different, such genes are said to be heterozygous.

In this case, the purple seed allele is represented by P and the purple parent is said to be homzygous. Hence, the genotype would definitely be PP.

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Final answer:

The genotype of the purple plant is PP, with two copies of the dominant allele for purple seeds.

Explanation:

In a monohybrid cross of corn plants, purple seeds (P) are dominant to yellow (Y). Both parents in the original cross are homozygous. One has purple seeds, and one has yellow seeds. The genotype of the purple plant can be determined as PP, since both parents are homozygous and the purple color is dominant. This means that the purple plant has two copies of the dominant allele for purple seeds.

Explanation:

It contains multiple mitochondria and synaptic vesicles where the transmitter acetylcholine is stored

Answer:contains multiple mitochondria

Explanation:

Answer:

Neuroregeneration is the process by which individuals regain neurological function following an injury to the nervous system

Explanation:

The body cell repairs or regenerates by the process of Neuroregeneration. The process allows formation of new neuron cells. The neuroregeneration process is different in PNS and CNS. During accidents, falls or assaults, this process starts generating new cells (neurons) and repairing of tissues present in the nervous system. The PNS composed of spinal and cranial nerves. The CNS composed of spinal cord and brain.

Neuroplasticity allows individuals to regain neurological function following an injury by creating new neural connections or rewiring existing ones.  Option b is correct.

Neuroplasticity refers to the ability of the brain to change and adapt in response to damage, creating new neural connections or rewiring existing ones. This process can involve various mechanisms such as the creation of new synapses, the pruning of unused synapses, changes in glial cells, and the birth of new neurons.

For example, after a stroke, the brain has the capacity to 'rewire' itself to compensate for lost functions by strengthening other neural pathways. Although this capacity is more pronounced in children, adult brains are also capable of significant changes. Environmental factors like stimulation, as well as internal factors like hormones and genes, can influence the extent of neuroplasticity.

Neuronal recovery varies between the central and peripheral nervous systems. While neurons in the central nervous system (CNS) typically do not regenerate, peripheral neurons often regrow, which is why sensations can gradually return after peripheral nerve injuries such as deep cuts on the skin.

Complete question as follows:

What is the process by which individuals regain neurological function following an injury to the nervous system?.

a. axon regeneration

b. neuroplasticity

Answer:

The base pairing of complementary regions of RNA leader sequence determines if the transcription will be attenuated at the end of leader sequence or will continue for structural genes.

Explanation:

The RNA leader sequence of trp operon is the site where the transcription is initiated.  

When tryptophan levels are high, translation of sequence 1 of the leader sequence is followed by base pairing between the complementary 3 and 4 regions of the leader sequence. The base pairing forms a terminator like attenuator and stops the expression of structural genes.  

When tryptophan is not present, ribosome pauses at tryptophan codon of region 1 of the leader sequence. Hence, the regions 2 and 3 of the leader sequence base pair and prevents the formation of attenuator by not allowing the region 3 to pair with region 4.  

Groundwater pollution comes from both non-point and point sources, and isn't always easily detected through taste or smell. It's challenging to clean up due to the complexity of groundwater systems and the wide dispersal of pollutants.

Groundwater pollution does often stem from non-point pollution sources like fertilizer runoff from farmland, although it's not exclusive to these sources. It can also originate from point sources, like sewer leaks or industrial discharge. Regarding detectability, groundwater pollution isn't always easily detected through taste or smell, and may require scientific testing for confirmation.

The complexity of groundwater systems and the wide dispersal of pollutants make cleanup extremely challenging. This implies that preventing groundwater pollution is far more effective and cost-efficient than trying to clean up pollution after it has occurred.

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Answer:

The region between the tip and the shaft of a long bone is the metaphysis.

Explanation:

The metaphysis contains the growth plate, which is the part of the bone that grows during childhood. As it grows it starts to get harder along the tip and the shaft of the long bone.

Answer:

Water will exit the cell!

Explanation:

Because the solution is HYPOtonic, meaning the outside of the solution has a lower concentration of molecules (be it water, sugar, etc), the water within in the cell will leave in order to even out of the concentrations within and outside the cell.

Answer: a. Proton Motive Force

Explanation:

As a process presented in Bacteria, Mitochondria, and Chloroplasts, the chemiosmosis is important to generate ATP from ADP. In this process, we have two main components an electrical potential and a proton concentration gradient, that act in a process called proton-motive force. The ignition starts via the movement of electrons with different energy states via electron carriers.

Answer:

(C). white blood cell production

Explanation:

CSFs (colony stimulating factors) are glycoproteins that activate intracelluar pathways and promote proliferation of hemopoietic stem cell to form immune cells (white blood cells).

CSFs are released in response to infection and interacts with blood stem cells to produce new immune cells. These resulting new immune cells create an army of cells to fight against the infection and provide immunity.

Thus, the correct answer is option (C).

Answer:

The human skeletal system, and the muscles themselves, are the ones responsible for movement, warmth, metabolism, posture, and other things.

Our muscles are long stretches of fibers composed by sarcomeres that form our skeletal muscle system. Each of these fibers are joined together into fascicles, and each of them are characterized by the fact that they can either be of a fast twitching capacity (FT), or a slow twitching capacity (ST). As such, according to research, human beings have in their muscles two major types of fibers, the ST, which when looked histologically are stained red, and the FT, further subdivided into FTa and FTb, depending on their metabolic response, and which usually show white or pale on the microscope.

In regards to muscle performance, these three types of fibers, and their presence in the skeletal muscle system of a person will ensure the better, or lack of good, muscle performance when in exercise. Usually, under certain circumstances, por example, exercise, a person who has muscle training, will show a higher volume of ST fibers, and will have lesser exposure to muscle fatigue, which will make them more fit to longer extensions of exercise exposure. Whereas people with lesser training will present more incidence of FT fibers, especially those that work better under anaerobic conditions. These people, when exposed to exercise, will have faster muscle responses, but, fatigue will set in much faster too, because the aerobic process takes longer to set in, as the muscles are not trained.

Answer: b. Acetyl Co-A

Explanation:

Acetyl CoA produced through pyruvate, amino acids, and fatty acids are oxidized in the Krebs cycle in CO2, obtaining as products NADH, FADH2 and GTP (ATP). Parallel to this oxidation, the Krebs cycle produces compounds used as precursors for biosynthesis. As it is a cycle, an oxaloacetate molecule could, in principle, oxidize an amount indefinite of acetyl CoA. Acetyl-CoA is formed from the oxidative decarboxylation of pyruvate, sequentially performed by pyruvate dehydrogenase -PDH (complex multi enzymatic of 3 enzymes), in the mitochondrial matrix.

Answer: Each cell is formed from a precursor cell. Blast cells are found in bone marrow. Blast cells are the precursors of blood cells like neutrophils,monocytes, lymphocytes, and erythrocytes. Usually blast cells are present in blood in low count.

High count of Blast cells shows abnormalities. As they are the precursors so high number of precursors cells shows less formation of blood cells. High count of Blast cells may lead to AML( Acute Myeloid Leukemia). AML patient have to go through CBC(complete blood count) Test to check abnormalities.

Explanation:

Answer:

evaporative heat loss + convective heat loss + conductive heat loss + radiative heat loss

Answer:

evaporative heat loss + convective heat loss + conductive heat loss + radiative heat loss

Explanation:

Answer:

The correct option is: (A) stem cells

Explanation:

The bone marrow is a semi-solid tissue which is generally found in the spongy portions of the bones. In the bone marrow, all the blood cells are produced from the unspecialized precursor cells, which are known as the stem cells. Firstly, the stem cells divide and form the immature blood cells. These immature blood cells then further divide and mature to form the mature blood cells.

Therefore, the stem cells are the precursor cells which transform and mature to form the blood cells.

Answer:

Option (3).

Explanation:

Hypothalamus is located at the base of a brain and divided into anterior, posterior and middle regions. These three regions work together to control the vital functions of the body.

Hypothalamus regulate the endocrine system, maintains homeostasis and control center of autonomic nervous system. Hypothalamus is not isolated and drugs abuse affects the hypothalamus region of the brain.

Thus, the correct answer is option (3).

Answer:

Limbic system

Explanation:

Limbic system is also known as paleomammalian cortex and located on the sides of thalamus. The cerebral cortex meets with the subcortical structure at the limbic system.

Limbic system is involved in learning, emotion, behavior and long term memory. This system interconnects the brain structure involving temporal lobe, frontal lobe-cortex  and hypothalamus.

Thus, the answer is limbic system.

Answer:  C. ​82.26%

Explanation:

Given :  The red blood cell counts of women are normally distributed with

[tex]\mu=4.577\text{ million cells per microliter}[/tex]

[tex]\sigma=0.382\text{ million cells per microliter}[/tex]

Let X be the random variable that represents the red blood cell counts of randomly selected woman.

Z-score : [tex]z=\dfrac{X-\mu}{\sigma}[/tex]

For X=4.2

[tex]z=\dfrac{4.2-4.577}{0.382}\approx-0.99[/tex]

For X=5.4

[tex]z=\dfrac{5.4-4.577}{0.382}\approx2.1544[/tex]

Now, the probability that the women have red blood cell counts in the normal range from 4.2 to 5.4 million cells per​ microliter will be :-

[tex]P(4.2<X<5.4)=P(-0.99<z<2.15)\\\\=P(z<2.1544)-P(z<-0.99)\\\\=0.9843955-0.1618458=0.8225497\approx0.8226=82.26\%[/tex]

Hence, 82.26% of women have red blood cell counts in the normal range from 4.2 to 5.4 million cells per​ microliter.

Approximately 82.31% of women, when rounding to two decimal places, have red blood cell counts that fall within the normal range of 4.2 to 5.4 million cells per microliter. This is determined using z-scores and the normal distribution given the mean of 4.577 million cells/μl and the standard deviation of 0.382 million cells/μl.

To find the percentage of women who have red blood cell counts in the normal range from 4.2 to 5.4 million cells per microliter, we use the concept of the normal distribution and standard deviation. The given mean for women is 4.577 million cells/μl, and the standard deviation is 0.382 million cells/μl.

First, we convert the values of the normal range to z-scores using the formula:

Z = (X - μ) / σ

For the lower range (X = 4.2 million cells/μl):

Z = (4.2 - 4.577) / 0.382 ≈ -0.99

For the upper range (X = 5.4 million cells/μl):

Z = (5.4 - 4.577) / 0.382 ≈ 2.15

Using a z-score table, we find the area under the curve to the left of z = -0.99, which is roughly 0.1611 (16.11%) and to the left of z = 2.15, which is roughly 0.9842 (98.42%). To find the percentage between the two z-scores, we subtract the area of the lower z-score from the upper z-score:

Percentage = 98.42% - 16.11% ≈ 82.31%

After rounding to two decimal places, we get 82.31% which is most similar to option C (82.26%).

Therefore, approximately 82.31% percent of women have red blood cell counts in the range from 4.2 to 5.4 million cells per microliter.

Answer:

The difference between an Endocrine and an Exocrine Gland is that Exocrine Gland are those glands that pour their product of secretion to the outside of the body ( have secretion channels) and Endocrine Glands are those that pour their product of secretion (hormones) into the bloodstream ( have no secretion channels).

Explanation:

The glands are structures that can be constituted by one or several cells, and that are formed from epithelial tissue. Their function is to secrete various substances, such as hormones, and they are classified as endocrine and exocrine, according to the place where they discharge their secretions.

The Endocrine Glands are very vascular structures, that is, irrigated by a large network of blood capillaries, thin and porous walls. These glands produce hormones that are poured directly into the bloodstream and transported by the blood vessels to the target tissues, where they come to perform their function. According to the chemical nature of the hormones produced by the endocrine glands, the organelles of the cells that constitute them can reach different degrees of development. For example the pancreas secretes insulin, which allows the body to regulate blood sugar levels.

The Exocrine Glands secrete substances through ducts directed to the surface of the body or to the interior of some organs. For example, exocrine glands are mucus-producing goblet cells, present in mucosal epithelia such as the lining of the intestine, and the sweat, sebaceous, and mammary glands. Tears are also produced by exocrine glands.