The apoplast in plant tissues consists of:________. a. cell walls, extracellular spaces, and vessel elements b. cell walls, extracellular spaces, and plasmodesmata c. vessel elements, plasmodesmata, and extracellular spaces d. cell walls, plasma membrane, and cytosol

Answers

Answer 1

The correct answer is a. cell walls, extracellular spaces, and vessel elements.

Here's why the other options are incorrect:

* b. cell walls, extracellular spaces, and plasmodesmata: Plasmodesmata are specialized channels connecting the cytoplasm of adjacent cells, and they are considered part of the symplast, not the apoplast.

* c. vessel elements, plasmodesmata, and extracellular spaces: As mentioned above, plasmodesmata are part of the symplast. Additionally, vascular elements like xylem and phloem contain internal lumens, which are considered part of the apoplast, but not vessel elements themselves.

* d. cell walls, plasma membrane, and cytosol: The plasma membrane and cytosol are inside the plant cell, while the apoplast refers to the extracellular space outside the plasma membrane.

Therefore, the apoplast encompasses the non-living spaces outside the cell walls, including the cell walls themselves, the intercellular spaces between cells, and the internal lumens of xylem and phloem elements.


Related Questions

A client with chronic arterial occlusive disease undergoes percutaneous transluminal coronary angioplasty (PTCA) for mechanical dilation of the right femoral artery. After the procedure, the client will be prescribed long-term administration of which drug?A. Aspirin or acetaminophen (Tylenol).B. Pentoxifylline (Trental) or acetaminophen (Tylenol).C. Aspirin or clopidogrel (Plavix).D. Penicillin V or erythromycin (E-Mycin)

Answers

Answer:

Aspirin or clopidogrel (Plavix)

Explanation:

Aspirin or clopidogrel (plavix).-rationale: after ptca, the client begins long-term aspirin or clopidogrel therapy to prevent thromboembolism

Drosophila melanogaster has four pairs of chromosomes. Sperm from this species are formed by a meiotic process in which homologous chromosomes pair and segregate but do not undergo crossing over. How many genetically different kinds of sperm could be produced by a Drosophila melanogaster male? A. 4

Answers

Final answer:

A male Drosophila melanogaster can produce 16 genetically different kinds of sperm calculated by the principle of independent assortment during meiosis, which yields 2 to the power of the number of chromosome pairs (2^4 = 16).

Explanation:

Drosophila melanogaster, commonly known as the fruit fly, has four pairs of chromosomes, resulting in 24 or 16 possible combinations of chromosomes that can be produced during gamete formation. This estimation comes from the principle of independent assortment, which applies during meiosis. However, the student's question specifies that crossing over does not occur in the formation of sperm in Drosophila melanogaster. Therefore, without crossing over, the number of genetically distinct kinds of sperm that can be produced is purely based on independent assortment of the chromosomes.

The random orientation of each of the four pairs of homologous chromosomes during metaphase I of meiosis I can lead to 2n different combinations of chromosomal assortments, where n is the number of chromosome pairs. For Drosophila melanogaster, which has n = 4, this would yield 24 or 16 possible combinations. Hence, a male Drosophila melanogaster has the potential to produce 16 genetically different kinds of sperm when considering independent assortment alone.

How does photosynthesis and cellular respiration contribute to the carbon cycle?

Answers

Answer:

Cellular respiration releases carbon dioxide into the environment, photosynthesis pulls carbon dioxide out of the atmosphere.

Explanation:

Muscles that act on the knee joint form most of the mass of the __________.

Answers

Answer:

thigh

Explanation:

The muscles that act on the knee joints majorly include the hamstring muscles (semimembranosus, biceps femoris, and semitendinosis) and the quadriceps muscles (vastus lateralis, vastus intermedius, vastus medialis, and rectus femoris).

The quadriceps muscles and the hamstring muscles are the major muscles that make up most of the mass of the thigh. The quadriceps are located at the front of the thigh, while the hamstring muscles are located at the back of the thigh.

Genomic DNA from the nematode worm Caenorhabditis elegans is organized by nucleosomes in the manner typical of eukaryotic genomes, with 145 bp encircling each nucleosome and approximately 55 bp in linker DNA. When C. elegans chromatin is carefully isolated, stripped of non-histone proteins, and placed in an appropriate buffer, the chromatin decondenses. Suppose researchers mix a sample of this chromatin with a large amount of DNase I that randomly cleaves DNA in regions that are not protected by bound proteins. Next, they remove the nucleosomes, separate the DNA fragments by gel electrophoresis, and stain the fragments with ethidium bromide.

a. Approximately what range of DNA fragment sizes do you expect to see in the stained electrophoresis gel? How many bands will be visible on the gel?

b. Explain the origin of DNA fragments seen in the gel.

Answers

Answers:

a. We will see DNA fragments with 145-200 bps (only one band)

b. The DNA sequence linked to histones will be protected from the action of DNase I, thereby this enzyme only can cut linker DNA (i.e., 55 bp fragments). In consequence, it is expected to observe a single band with a length of approximately 145 to 200 base pairs

Scientists working in the fields of both genetics and archaeology have made discoveries that us understand the origin of maize. which statement(s) best reflect the way(s) each discipline's work support evidence generated by the other?
a. geneticists used dna data to determine how long ago maize was domesticated. archaeologists then verified the conclusion by dating maize microfossils.
b. archaeologists first determined where maize was first domesticated. from there, geneticists calculated how long ago that was.
c. genetics data pinpointed the likely location of the earliest maize domestication, which allowed archaeologists to find fossil evidence of early maize in caves.
d. geneticists used archaeological data to identify how many genes controlled the changes from teosinte to maize.

Answers

geneticists used dna data to determine how long ago maize was domesticated. archaeologists then verified the conclusion by dating maize microfossils.

genetics data pinpointed the likely location of the earliest maize domestication, which allowed archaeologists to find fossil evidence of early maize in caves.

Answer: Options A and C.

Explanation:

Genetic evidence guided the archaeologists toward a particular territory to search for proof of maize taming; archaeologists discovered microfossils on pounding stones that coordinated that age of the soonest maize anticipated by DNA examination.

These evidences were used by the archaeologists to look in for the maize domestication.

Final answer:

Statement A is correct, as geneticists' DNA findings regarding maize domestication are supported and verified by archaeological dating of maize microfossils, demonstrating a cross-disciplinary collaboration.

Explanation:

Scientists have combined efforts in genetics and archaeology to understand the origin of maize. Geneticists have indeed used DNA data to determine when maize was domesticated, while archaeologists confirmed these findings by dating maize microfossils. This collaboration highlights how the work in one field supports and verifies findings in the other, indicating that statement A best reflects the collaborative nature of these discoveries.

The transformation of teosinte into maize occurred thousands of years ago in Southern Mexico through traditional breeding practices. This domestication process involved selecting traits which eventually altered maize's genetic instructions. Archaeological findings, such as maize microfossils, and genetic research are key in reconstructing this historical development.

Affinity chromatography is a method that can be used to purify cell-surface receptors, while they retain their hormone-binding ability. A ligand (hormone) for a receptor of interest is chemically linked to polystyrene beads. A solubilized preparation of membrane proteins is passed over a column containing these beads. Only the receptor binds to the beads. This method of affinity chromatography would be expected to collect which of the following? A. Molecules of the hormone. B. Molecules of purified receptor. C. G protein. D. Assorted membrane proteins. E. Hormone-receptor complexes.

Answers

Affinity chromatography is a method used to separate molecules with high affinity. This technique enables the purification of specific molecules ranging form nucleic acids, enzymes, antigens, antibodies, etc. In the example, the ligand will produce the receptor to be displaced from the beads and then eluted out.

Answer:

B: Molecules of purified receptor

Explanation:

Affinity chromatography is used mostly for biological systems because of high natural specificity between different biomolecules. Various applications include the use of enzymes, coenzymes, hormones, nucleotides, sugars etc to isolate viruses, cells and macromolecules. It has been widely applied to the purification of monoclonal antibodies, receptor proteins and recombinant proteins  

Affinity chromatography is used to perform high levels of purification based on interaction between proteins and ligands. The ligand is attached to the solid matrix (chromatograph) by covalent bond, then a mixture of molecules is passed through the column. Only the molecules that show a higher affinity for the ligand would remain in the column while other materials that lacks specificity for the ligand would pass through the column. The molecules are further purified and reversibly adsorbed by an immobilised ligand. Successful binding interactions between the ligand and the protein must be reversible to avoid disruption of the biological properties during elution from the column.

Proliferation of lymphocytes occurs immediately after which events?

Answers

The question is incomplete as it does not have the options which are:

A) release from the bone marrow

B.) seeding of secondary lymphoid organs

C) entering the circulation

D) antigen encounter & activation

Answer:

D) antigen encounter & activation

Explanation:

The immune response of the body is determined by the immune cells flowing in the blood.

When a type of immune cell called lymphocytes interact with the antigen (foreign body), this induces the activation of the immune response.

A type of lymphocyte which flows in the blood is B-lymphocytes which contain antibodies and binds with antigen produces cytokines like IL-4,5. These cytokines induce the B cells to produce plasma cells and memory cells. The plasma cells produce more B lymphocytes.

Thus, Option-D is correct.

Lymphocyte proliferation occurs after activation and binding of lymphocytes to antigens, followed by clonal expansion stimulated by cytokines like IL-2, leading to immune response and memory cell formation.

The proliferation of lymphocytes occurs immediately after the activation of naive B-lymphocytes, T4-lymphocytes, and T8-lymphocytes when they bind to their corresponding epitopes. This event, known as clonal expansion, is essential for mounting a successful immune response. Cytokines, such as interleukin-2 (IL-2), produced by these cells and others like dendritic cells, are crucial for this proliferation. Lymphocytes then differentiate into effector and memory cells. Memory cells provide a heightened and rapid secondary response upon re-exposure to the same antigen, the basis of long-lasting immunity and immunization strategies.

You are studying a new species of plant similar to Mendel's pea plants. You are specifically interested in two genes that are located on two different chromosomes. In this plant, the gene for height has two alleles, T (tall) and t (short). The gene for leaf color has two alleles P (purple) and p (pink). What meiotic products do you expect from diploid cells that are homozygous for the tall allele and heterozygous for the purple allele

Answers

Answer:

TP, Tp, TP and Tp

Explanation:

Homozygous Tall plant species will have genotype TT

Heterozygous purple plant species will have genotype Pp

A plant that is homozygous tall and heterozygous purple will have the genotype TTPp.

During meiosis, there is random union of alleles such that the gametes that will be formed will have the genotype: TP, Tp, TP and Tp

Final answer:

A plant that is homozygous for the tall allele (TT) and heterozygous for the purple allele (Pp) will produce gametes with genotypes TP and Tp, following Mendel's law of independent assortment.

Explanation:

In the study of a new species of plant with two different genes on separate chromosomes, we revisit the principles of Mendelian genetics to understand the meiotic products from these plants. Given that our plant specimen is homozygous for the tall allele (TT) and heterozygous for the purple allele (Pp), we predict the genotype of the gametes it will produce. Since the plant is homozygous tall (TT), all gametes it produces will contain the T allele. Likewise, because it is heterozygous for leaf color (Pp), it will produce gametes with either the P or the p allele.

During meiosis, these genes will segregate independently given that they are on different chromosomes. This phenomenon is known as Mendel's law of independent assortment. The resulting gametes expectantly will be TP and Tp. It's important to note that each gamete will only have one allele from each gene due to the reduction division of meiosis, which reduces the chromosome number by half, forming haploid cells.

"Use your knowledge of the Wnt/Frizzled signaling system to predict how gene expression will change when Lithium is added to a cell's environment. The TCF transcription factor will bind ________ frequently with the cell's DNA, resulting in _________ transcription."

Answers

DNA Transcription

Explanation:

The TCF transcription factor will bind less frequently with the cell's DNA, resulting in decreasing transcription."less, decreasedActive canonical WNT flagging outcomes in enlistment of β-catenin to DNA by TCF/LEF relatives, prompting transcriptional actuation of TCF target qualities. The extra translation factors have been recommended to enroll β-catenin and tie it to DNA. The genome-wide example of β-catenin DNA official in murine intestinal epithelium, WNT -responsive colorectal malignant growth (CRC) cells and HEK293 early stage kidney cells. The  two classes of β-catenin restricting locales. The top notch speaks to most of the DNA-bound β-catenin and co-limits with TCF4, the noticeable TCF/LEF relative in these cells.

Skin color is often one of the first traits people notice in each other. Studies in zebra fish uncovered a mutation that altered a transport protein and resulted in light-colored fish. This discovery led to the finding that the same gene in humans has a strong influence on skin pigmentation in many populations.Researchers compared the amino acid sequences of the transport protein in zebra fish, puffer fish, mice, and humans. They found many stretches with identical sequences in all four species. Does this mean that the corresponding mRNA base sequences are also the same in these four species? Explain why or why not.a. No because the redundancy of the genetic code means that it is possible for deferent codons to specify the same amino acids.b. Yes, because the amino acid sequences synthesized on base of mRNA sequence base is a result of translation, so if amino acid sequences are identical, the mRNA base sequences will be identical too. c. Yes. because ail codons specify the same amino acids in all organisms. d. No. because stretches with identical sequences in this species mean that the corresponding rRNA base sequences are also the same.

Answers

Answer:

The genetic code is degenerate because codon sequences, i.e., consecutive three nucleotides in the mRNA sequence, may exhibit variation among them and encode the same aminoacid.

Explanation:

In this case, the four species encode mRNAs that are translated into homologous proteins. These homolog proteins share sequence identity as they are evolutionary (and structurally) related. However, mRNAs are different because genomic sequences accumulate variation during evolution

Hans was locked in a large closet for the first four years of his life. A caretaker would bring him food and water and an occasional clean blanket. When Hans was rescued, how would his brain compare to that of a child raised in normal circumstances

Answers

Answer:His brain would be smaller

Explanation: The human brain continues to grow,until it get to the peak size,in the third or fouth decades of life. The brain tends to get smaller as people age,other reason includes,injury,alcohol use,infection,certain diseases and disorder.

Answer:

his brain would behave differently compared to a child who lived all that time out of a closet, since he does not present psychological traumas, little pedagogical and school stimulation, and in turn many values ​​not learned by not interacting as a social being. on the other hand, the lack of sunlight would also be related to depression and the lack of vitamin D synthesis that influences bone calcification, therefore the child will suffer from possible bone disorders, fragility and fatigue.

Explanation:

This is summarized in that humans are social beings and to contract health, we must have mental, psychological and biological health.

As red blood cells age ________. a. they will eventually be excreted by the digestive system b. ATP production increases c. iron will be excreted by the kidneys d. membranes "wear out" and the cells become damaged

Answers

Final answer:

As red blood cells age, their membranes 'wear out' and the cells become damaged. Macrophages in the bone marrow, liver, and spleen remove the damaged cells from circulation. The iron extracted from the aging red blood cells is recycled for the production of new hemoglobin molecules.

Explanation:

As red blood cells age, their membranes "wear out" and the cells become damaged. This aging process leads to the removal of the damaged cells from circulation by macrophages in the bone marrow, liver, and spleen.

For example, when red blood cells are about 4 months old, they are broken down and the iron is extracted from the hemoglobin molecules. The blood transports this iron to the bone marrow where it is recycled into new hemoglobin molecules in the new red blood cells that are always being produced.

Minerals like iron are valuable nutrients, and the body usually recycles them. In the case of aging red blood cells, the iron is extracted and reused in the production of new red blood cells.

A child has the same number of chromosomes as each of his parents. This is because the gametes that combined when that child was conceived each contained ________ chromosomes.

Answers

Answer:

When a child is conceived each parent gives 23 of their chromosomes

Final answer:

A child has the same number of chromosomes as each parent because the sperm and oocyte, which are haploid with 23 chromosomes each, combine during fertilization to create a diploid zygote with 23 pairs of chromosomes.

Explanation:

A child has the same number of chromosomes as each of his parents because the gametes that combined when that child was conceived each contained half the number of chromosomes. Gametes are haploid cells, meaning they have only one set of chromosomes, which is 23 in humans. During sexual reproduction, a sperm cell from the father and an oocyte from the mother combine in a process known as fertilization to form a zygote.

The zygote is then diploid, with two sets of chromosomes, one from each parent, totaling 46 (23 pairs). This perfect pairing of chromosomes ensures genetic continuity and the inheritance of traits from both parents. Homologous chromosomes in these pairs contain genes for the same traits, although the specific alleles (versions of a gene) may vary between the two parents.

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Which hormone affects the seasonal changes in some animals—like the arctic fox that changes coat color from summer to winter?
a. Epinephrine
b. Cortisol
c. Melatonin
d. Insulin
e. Follicle-stimulating hormone

Answers

Final answer:

The hormone responsible for seasonal changes in some animals, such as the arctic fox's coat color change, is melatonin. It regulates circadian rhythms and is influenced by light.

Explanation:

The hormone that affects seasonal changes in animals like the arctic fox, which changes coat color from summer to winter, is melatonin. Melatonin is synthesized by the pineal gland in the brain and is derived from the amino acid tryptophan. It is particularly known for its role in regulating circadian rhythms, which are influenced by ambient light. Seasonal changes in daylight duration trigger variations in melatonin production, which can lead to physiological changes such as fur color transition in the arctic fox.

Final answer:

The hormone affecting seasonal changes, like coat color changes in the arctic fox, is melatonin, which is related to circadian rhythms and light exposure. Thus, option C is correct.

Explanation:

The hormone that affects the seasonal changes in animals such as the arctic fox, which changes its coat color from summer to winter, is melatonin. Melatonin regulates circadian rhythms and is affected by changes in the duration and intensity of ambient light. Longer nights in winter lead to an increase in melatonin production, triggering physiological changes in the animal that include color changes in their fur to adapt to the seasonal environment for camouflage and survival.

Answer choice (c) melatonin is the correct answer to the question posed by the student.

What is the difference between evolution and coevolution? a) Evolution of one species only occurs in response to natural selection based on the changing environment that species lives in at a particular time. b) Coevolution is the only way speciation can occur. c) These concepts are not different; they only differ on time scale. d) Coevolution results when two or more species influence adaptation in each other.

Answers

Evolution And Coevolution

Explanation:

    (d) Coevolution results when two or more species influence adaptation in each other.

Coevolution is the evolution in at least two species in which the evolutionary changes of every specie impact the development of different species. As such, exerts selection pressures on, and develops in light of, different species.  Coevolution - Evolution that outcomes from the connections between animals.  Convergent evolution Pattern of development in which two inconsequential species bit by bit become like each other through adaptation to a common environment, regularly bringing about closely resembling structures.

Final answer:

Evolution is the change in genetic makeup of a population over time, often driven by the process of natural selection. Coevolution, in contrast, is a specific form of evolution where two or more species reciprocally affect each other's evolution through close interaction. So, the correct option is d : Coevolution results when two or more species influence adaptation in each other.

Explanation:

The difference between evolution and coevolution can be understood through their interaction with the environment and other species. Evolution can be defined as the changes in the genetic makeup of a population over time, which includes both adaptation and speciation. This change happens from one generation to the next and is often in response to environmental changes, including those involving other species, driven by natural selection. On the other hand, coevolution occurs when two or more species influence adaptation in each other, evolving together typically due to close interactions, such as in the case of flowering plants and their pollinators, or predator-prey relationships.

Afferent fibers from the periphery that carry nociceptive information input their pain signals into the _________________ of the spinal cord. A. medulla. B. central brainstem. C. dorsal horn cells of the spinal cord. D. ventral horn cells of the spinal cord.

Answers

Answer:

C. dorsal horn cells of the spinal cord

Explanation:

Afferent fibers from the periphery that carry nociceptive information input their pain signals into the dorsal horn cells of spinal cord and then this information is transferred to thalamus via spinothalamic tract and finally to the cortex by thalamo cortical projections.

Compared to small cells, large cells have more trouble Select one: a. dividing. b. producing daughter cells. c. moving needed materials in and waste products out. d. making copies of their DNA.

Answers

Answer: Option C) moving needed materials in and waste products out.

Explanation:

Unlike small cells with a greater surface-area to volume ratio, large cells have a greater volume and lesser surface area, hence finds it difficult to expel wastes and take in required nutrients and gases into the cell

Compared to small cells, large cells have more trouble moving needed materials in and waste products out.

CELL:The cell is the basic unit of life, which means that every living organism is made up of one or more cells.

Smaller cells perform certain task easier than larger cells. One of these tasks is excretion.

Smaller cells have a larger surface area to volume ratio while larger cells have a smaller surface area to volume ratio.

The large surface area to volume ratio in smaller cells makes movement of materials in and out of the cell easier than the smaller surface area to volume ratio in larger cells.

Therefore, compared to small cells, large cells have more trouble moving needed materials in and waste products out.

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Several Eastern European countries today gather funds to protect their forests through collecting fines for illegally cutting trees and fees for legal permits to do so.TrueFalse

Answers

Answer:

True

Explanation:

In Croatia, Czech Republic, Hungary, Lithuania, and Poland, money for forest protection comes from fines from the illegal cutting of trees and from fees for legal permits to do so. In addition, large areas in Eastern Europe have been set aside as protected areas.

Final answer:

It is true that Eastern European countries gather funds for forest protection by imposing fines for illegal logging and collecting fees for legal permits. They manage forest lands proactively, recognizing the value of their forests.

Explanation:

The statement that several Eastern European countries today gather funds to protect their forests through collecting fines for illegally cutting trees and fees for legal permits is true. The maintenance and management of forest lands are crucial, as forests cover more than 40 percent of Europe's land area. While economic wealthier countries have the means to import resources and promote tree planting initiatives, others still grapple with deforestation issues. However, many European countries have recognized the significance of their forested lands and have robust systems to promote forest growth and manage exploitable resources, which includes imposing fines for illegal logging and collecting fees for legal permits for resource exploitation.

When the palmaris longus muscle in the forearm is flexed, the wrist moves back and forth. If the muscle generates a force of 49.5 N and it is acting with an effective lever arm of 2.75 cm , what is the torque that the muscle produces on the wrist

Answers

Answer: 1.36Nm

Explanation:

Torque is the product of force and distance from the axis of rotation. It's standard unit is Newton-metre (NM).

To obtain the torque the muscle produces on the wrist:

Convert distance 2.75cm to metres

if 100cm = 1 metre

2.75cm = ?

so, 2.75/100 = 0.0275m

Recall that Torque = Force X distance from axis of rotation

= 49.5N X 0.0275m

= 1.36 Nm

Thus, the torque that the muscle produces on the wrist is 1.36 Newton - metre

Final answer:

The palmaris longus muscle produces a torque of 1.36 N.m on the wrist, calculated using the formula for torque is Torque = Force x distance.

Explanation:

The torque that the palmaris longus muscle produces on the wrist can be calculated using the formula for torque which is Torque = Force x distance. In this case, the force is the muscle force which is 49.5 N and the distance is the effective lever arm which is 2.75 cm (note: you need to convert the cm to meters to have the correct unit for torque in Newton-meters, so 2.75 cm = 0.0275 m). Plugging the values into the formula, we get Torque = 49.5 N x 0.0275 m = 1.36 N.m. Therefore, the torque the palmaris longus muscle produces on the wrist is 1.36 N.m.

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1. The nucleic acids DNA and RNA carry genetic information and are made up of many . 2. Myoglobin is a protein that binds oxygen molecules and is a polymer of . 3. Insulin is a protein hormone that regulates blood glucose levels and is a polymer of . 4. Animals store energy in the form of glycogen, a carbohydrate made up of thousands of .

Answers

Answer:

1. Nucleotides

2. Amino acids

3. Amino acids

4. Glucose

Explanation:

All the above substance described are biomolecules. They are all polymers i.e. complex molecule bond together in a long repeating chain, made up of simpler subunits called monomers. The monomers of the different biomolecules outlined above are:

1. The nucleic acids, DNA and RNA carry genetic information and are made up of many NUCELEOTIDES. A nuceleotide is a chemical combination of a five carbon sugar (pentose), phosphate group and nitrogenous base. These nucleotides are arranged sequentially to form nucleic acids (RNA and DNA).

2. Myoglobin is a protein that binds oxygen molecules and is a polymer of AMINO ACIDS. Amino acids are the building blocks of proteins. They are arranged to form a 3D structure that determines the function of the protein.

3. Insulin is a protein hormone that regulates blood glucose levels and is a polymer of AMINO ACIDS. All proteins are made up of the amino acid but the protein's function is dependent on the 3D structure formed by the amino acid sequence.

4. Animals store energy in the form of glycogen, a carbohydrate made up of thousands of monosaccharide (GLUCOSE). Glycogen is a polysaccharide made up of many monosaccharide units. These units are glucose molecules that are multibranched to form the glycogen that stores mainly in the liver and muscles of animals.

Final answer:

DNA and RNA are polymers of nucleotides, carrying genetic information. Both Myoglobin and Insulin are proteins made up of amino acids, with the former binding oxygen molecules while the latter regulates blood glucose. In Animals, glycogen is a carbohydrate made up of glucose units storing energy.

Explanation:

The nucleic acids DNA and RNA carry genetic information and are actually polymers of nucleotides, which include a sugar, a phosphate group, and a nitrogenous base. The protein Myoglobin, on the other hand, is a polymer of amino acids, as it binds oxygen molecules in muscle cells to help provide oxygen when needed. Similarly, Insulin is also a polymer of amino acids, and it functions primarily as a hormone that regulates blood glucose levels. Lastly, the carbohydrate called glycogen, which animals use to store energy, consists of thousands of glucose units.

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The same gene that causes various coat patterns in wild and domesticated cats also causes a cross-eyed condition in these cats, the cross-eyed condition being slightly maladaptive. In a hypothetical environment, the coat pattern that is associated with crossed eyes is highly adaptive, with the result that both the coat pattern and the cross-eyed condition increase in a feline population over time. Which statement is supported by these observations?
a. Evolution is progressive and tends toward a more perfect population.
b. Phenotype is often the result of compromise.
c. Natural selection reduces the frequency of maladaptive genes in populations over the course of time.
d. Polygenic inheritance is generally maladaptive, and should become less common in future generations.
e. In all environments, the coat pattern is a more important survival factor than is the eye-muscle tone.

Answers

Answer:

The answer is B.

Explanation:

The given example in the question of the wild cat's coat patterns and the cross eyed condition are caused by the same gene. The cross eyed condition is a disadvantage for the wild cats because it affects their vision and therefore their ability to hunt and feed. But it also causes the coat pattern that leads to the increase of feline population over time. This is a result of a compromise between the two traits for their affects on the population. We can say that phenotype is often the result of compromise because not all traits support the same result.

I hope this answer helps.

Answer:

The correct answer is option b. "Phenotype is often the result of compromise".

Explanation:

The fact that the same gene controls both the coat pattern and the cross-eyed condition in cats, but only the cross-eyed condition being slightly maladaptive, suggest that phenotype is often the result of compromise. Phenotype is the result of both, the genotype and the environment. Selective pressures made by environmental conditions can cause the cross-eyed condition being maladaptive in cats.

What would occur to plants in an area if animals were excluded?

Answers

Answer:

The plants would flourish and overrun the area.

Answer:it would  Increased plant abundance

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The pubic symphysis connects the two hip bones anteriorly and provides a little movement during childbirth. Choose the most appropriate tissue for this structure that is subjected to both pressure and stretch.

Answers

Answer:

The most appropriate tissue to join the pubic symphysis -that provides resistance to pressure and stretch during childbirth- is fibrocartilage.

Explanation:

Options for this question are:

A. Fibrocartilage.B. Elastic cartlage.C. Bone.D. Hyaline cartilage.

Fibrocartilage is made up of dense connective tissue rich in type I collagen fibers, hyaluronic acid and proteoglycans, which give it resistance to stretching and pressure.

Some ligaments are formed by fibrocartilage, in addition to the intervertebral discs and the junction of the pubic symphysis, allowing a certain degree of mobility to the associated structures due to their semi-elastic properties.

Hyaline cartilage, also made up of connective tissue, is less resistant than fibrocartilage.

Bone cannot form this junction, because it would not allow the relative mobility of the joint.

The elastic cartilage allows for stretching but not the strength needed to join the pubic symphysis.

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Final answer:

The pubic symphysis is made up of fibrocartilage, which can withstand both pressure and stretch.

Explanation:

The most appropriate tissue for the pubic symphysis, which connects the two hip bones anteriorly and provides a little movement during childbirth, is fibrocartilage. Fibrocartilage is a type of connective tissue that is capable of withstanding both pressure and stretch. It is found in areas of the body that require both support and flexibility, such as the pubic symphysis and the intervertebral discs.Fibrocartilage is a dense and tough type of connective tissue renowned for its unparalleled strength and flexibility. It is found in areas subjected to intense pressure, like the pubic symphysis.

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Which areas in a secondary lymphoid organ allows intimate contact between blood and the lymphocytes?

Answers

Answer: White pulp of the spleen

Explanation:

The white pulp of the spleen is that region found in the spleen which appears white in color.

It appears whiter than the surrounding red pulp on the gross section which consitutes to about 25% of the whole splenic tissue.

This area has antigen presenting cells and dendritic cells and macrophages. Some of the cells there are known as metallophillic mcrophages which helps in keeping the body free from diseases.

A _____ is a site populated with people with erotic dispositions that they project on the space and each other, creating a system of sexual stratification.

Answers

Answer:

sexual fields

Explanation:

A sexual field is an field of social life wherein individuals seek intimate partners and fight for sexual status.

What would happen to the proton gradient and ATP production after a drug has poisoned the enzyme that combines acetyl CoA and oxaloacetate to form citrate

Answers

Answer:

The proton gradient becomes weaker

Reduction in the amount of ATP produced.

Explanation:

The combination of acetyl CoA and oxaloacetate drives the formation of nicotinamide adenine dinucleotide + hydrogen (NADH). Poisoning the enzyme that aids this combination will result to lesser production of NADH which would lead to weakening the proton gradient and the reduction in the amount of adenosine triphosphate (ATP) produced.

Final answer:

The poisoning of the enzyme that combines acetyl CoA and oxaloacetate to form citrate would disrupt the Citric Acid Cycle and hamper the formation of NADH and FADH2. As a result, the proton gradient across the inner mitochondrial membrane would decrease, which would negatively impact the process of chemiosmosis and ultimately reduce ATP production.

Explanation:

The poisoning of the enzyme that combines acetyl CoA and oxaloacetate to form citrate would disrupt the Citric Acid (Krebs) cycle, as citrate would not be produced. This would limit the production of NADH and FADH2 which are essential for the inner mitochondrial membrane's electron transport chain (ETC). As a consequence, the pumping of protons into the intermembrane space would decrease.

Subsequently, the proton gradient across the inner mitochondrial membrane would decline, negatively impacting the process of chemiosmosis - an essential step for the production of ATP. Chemiosmosis entails the diffusion (flow) of protons (hydrogen ions) across the membrane, back to the mitochondrial matrix through ATP synthase. This process drives the phosphorylation of ADP to ATP, producing the ATP molecules that are effectively the 'energy currency' within cells.

In conclusion, the poisoning of the enzyme that combines acetyl CoA and oxaloacetate would significantly hinder ATP production by disrupting the Citric Acid Cycle and the subsequent oxidative phosphorylation processes. It is a stark reminder of how crucial the integration of various enzymatic activities is to energy production within living cells.

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BLANK refers to the application of food science to select, preserve, and process food.

Answers

Final answer:

Food Technology is the application of food science to select, preserve and process food ensuring safety and longevity. It involves various techniques like desiccation high pressure processing and involves the significant shift from manual labour farming to more mechanized production.

Explanation:

The term referred to in the question is Food Technology. This field applies the principles of food science to the selection, preservation, and processing of food. It involves a variety of techniques ranging from simple tasks such as boiling food at a temperature of 100 °C to more complex processes such as high pressure processing and biotechnology .Food technology is critical in enhancing food safety. For example, one traditional method used is desiccation, which involves preserving foods by reducing their water content often via the addition of salt or sugar. Modern techniques include the use of high pressure to destroy microbes, which helps to ensure the food's safety and longevity, giving consumers a broader variety of dietary options.The field also has a significant economic aspect, with the agriculture industry playing a significant role in most nation's economies. As technology evolves, we see a shift from manual labour farming to more mechanized production, thereby increasing the efficiency and output of the industry.

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The rainforest is an area rich in natural resources. Resources taken from this region are used for lumber, medicines, food and many other products. ________________ is one of the current factors affecting extraction of resources from the rainforest. A. Inconvenient transportation of resources B. Lack of storage for resources C. Troublesome weather patterns D. Political opposition

Answers

Answer:

C. Troublesome weather patterns is one of the current factors affecting extraction of resources from the rainforest.

What was the role of congress during johnson’s presidency?

Answers

Answer:

The role of congress during Johnson's presidency is discussed below.

Explanation:

Johnson was assigned to a containment strategy that asked upon the United States to prevent Communist extension of the variety that was a charming area in Vietnam, but he required Kennedy's experience and passion for foreign policy, and prioritized national improvements over important actions in foreign affairs.Johnson passed even more comprehensive improvements.
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