The electron transport system for oxidative phosphorylation receives the NADH produced by the citric acid cycle. ATP is a molecular energy molecule.
What is the energy output of one citric acid cycle cycle?In terms of chemicals holding energy, one GTP, three FADH2, and one NADH molecule make up the net yield of one "turn" of the TCA cycle.
What results from one cycle of the citric acid cycle?One cycle of the citric acid cycle results in the production of one FADH2 start text, F, A, D, H, end text, start subscript, 2, end subscript, three NADHstart text, N, A, D, H, end text, one ATPstart text, A, T, P, end text, or GTPstart text, G, T, P, end text, and one molecule each of carbon dioxide and NADHstart text, N, A, D, H, end text.
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use the following model of a eukaryotic transcript to answer the question. e1-4 refer to the exons, and i1-3 refer to the introns in the pre-mrna transcript. 5' utr e1 i1 e2 i2 e3 i3 e4 utr 3' suppose that exposure to a chemical mutagen results in a change in the sequence that alters the 5' end of intron 1 (i1). which of the following results might occur? question 6 options: premature transcriptional termination loss of e1 loss of the gene product inclusion of i1 in the mrna
The exposure to a chemical mutagen results in a change in the sequence that alters the 5' end of intron 1
5' UTR E1 E2 E3 E4 UTR 3'
inclusion of I1 in the mRNA
Asymmetric RNA Splicing The first genes with alternative RNA splicing were discovered in the 1970s.
When multiple combinations of exons are joined to make the mRNA, a procedure called alternative RNA splicing enables diverse protein products to be synthesized from a single gene. The frequency of various splicing alternatives is controlled by the cell as a way to regulate the production of different protein products in different cells or at different stages of development.
Alternative splicing can be haphazard, but more often it is controlled and acts as a mechanism of gene regulation. In eukaryotes, alternative splicing is widely recognized as a frequent process of gene control. One estimate place the proportion of human genes that are expressed as numerous proteins by alternative splicing at 70%.
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Label the structures found within a skeletal muscle. Muscle fiber Myofibril Sarcoplasmic reticulum Filaments Perimysium Sarcolemma Epimysium Endomysium Fascia Epimysium Endomysium Fascia Tendon Fascicle Reset
The structures found within a skeletal muscle.
muscle fiberPerimysiumactinTropomyosinTroponinmyosinWhat is skeletal muscle?Skeletal striated muscle tissue is formed by bundles of very long, multinucleated cylindrical fibers known as skeletal striated muscle fibers. These bundles are surrounded by the epimysium, an outer membrane of dense connective tissue. Septa of very thin connective tissue, called perimysium, depart from these membranes, through which blood vessels enter the muscles. They are muscles of voluntary movement.
Myosin is made up of two subunits, light meromyosin and heavy meromyosin. The light meromyosin corresponds to the largest portion of the rod, while the heavy meromyosin is composed of the smallest part of the rod next to the globular projection.
The sarcolemma consists of a cell membrane, called the plasma membrane, and a lining of a thin layer of polysaccharide material, with many thin collagen fibrils.
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examine a culture of rotifers, drawing what you see. label the corona, and describe its movement. add a tiny amount of the red-celled alga rhodomonas. can you observe the capture of cells by the corona?
Rotifers are tiny aquatic creatures with a crown-like structure known as a corona. They possess a variety of reproductive strategies, including both sexual and asexual reproduction.
What is Corona?
The corona is made up of small, hair-like structures that spin around the rotifer's body, creating a current that captures food particles and transports them to the organism's mouth. When a trace amount of the red-celled alga Rhodomonas is added to the culture, the corona can be seen engulfing the alga cells as they approach the rotifer's mouth.
What is the red-celled alga Rhodomonas?
Rhodomonas is a species of cryptomonads. It is distinguished by its red colour, the square-shaped plates of its inner periplast, a short furrow ending in a gullet, and a distinctively shaped chloroplast closely associated with its nucleomorph.
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tapping sign over the transverse carpal ligament
Carpal tunnel syndrome is tested for by tapping on the transverse carpal ligament.
What is Durkan's hand test?Examiner applies pressure to carpal tunnel for 30 seconds with thumbs. The test is considered successful if there is an immediate start of pain or paresthesia in the median nerve distribution. When your nerve is touched, your entire body will start to tingle—this is known as a good Tinel sign.
Transverse carpal ligament: What travels through it?The median nerve generally passes through the carpal tunnel as a single nerve, splitting at the distal edge of the transverse carpal ligament, where it gives origin to the branches that innervate the fingers.
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Question:-
Tapping over the transverse carpal ligament tests for?
If you help me I will give brainliest
Answer:
I can't see the picture please repost the picture
ovulation is considered to be ________ .
Answer: menstruation
Explanation: Ovulation refers to the release of an egg during menstruation in females. Part of the ovary called the ovarian follicle discharges an egg. The egg is also known as an ovum, oocyte, or female gamete. It is only released on reaching maturity.
Please choose the feature of Pseudomonas that makes it a difficult organism to control in a hospital environment.- An endotoxin- A capsule- The ability to utilize all sorts of nutrients- An anaerobic bacterium- Antibiotic resistance
The feature of Pseudomonas that makes it a difficult organism to control in a hospital environment is Antibiotic resistance.
Antibiotics are frequently used to treat infections caused by Pseudomonas aeruginosa. Pseudomonas aeruginosa infections are regrettably getting harder to treat in patients exposed to healthcare environments like hospitals or nursing homes due to rising antibiotic resistance.
A mobile genetic element that produces the carbapenemase enzyme is present in two to three percent of carbapenem-resistant P. aeruginosa. The antibiotics carbapenem are rendered useless by this enzyme. Because bacteria can easily exchange mobile genetic elements, resistance to these crucial medications spreads quickly.
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How does an early onset of spring through climate change affect plants?
Earlier spring onset might also reason phenological mismatches among the supply of plant sources and dependent animals and potentially lead to extra fake springs when the next freezing temperatures harm new plant growth.
vegetation that might be tormented by weather exchange tends to have a developing and flowering season that begins very early and lasts longer than normal. This actually puts an imbalance within the environment which reasons many environments to have a special stake in the demand and delivery of food for another number one and secondary purchasers.
The early onset of spring influences the plant's budding time which might then expand to early improvement of end result and afterward will progress to a lack of delivery while the want for that meal arises for other organisms.
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list three major biological functions of triacylglycerols
Triglycerides, cholesterol, and other critical fatty acids—what the medical community refers to as fats that the body cannot produce on its own—store energy, keep us warm, and safeguard our vital organs. They serve as messengers, facilitating the work that proteins do.
What role do triacylglycerols play in biology?Abstract. Due to their high energy density, triacylglycerols (TAGs) are the primary energy storage resource in mammals. Their hydrophobicity and substantially reduced state both play a role in this.
Quiz: What are the main roles of triglycerides in the body?Triglycerides serve a variety of purposes, including the storage of energy, cushioning, thermal insulation, joining of organs, and absorption of some vitamins. Phospholipids play a role in the construction of cell membranes, the breakdown of fats, and the myelin sheaths that surround neurons in the body.
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Which of the following statements regarding enzyme function is false?
a. Enzymes do not show specificity for the substrates they bind.
b. Enzymes emerge unchanged from the reactions they catalyze. c. An enzyme binds to its substrate at the enzyme's active site. d. Enzymes are proteins. e. An enzyme's function depends on its three-dimensional shape.
The statement that is false regarding enzyme function is enzymes do not show specificity for the substrates they bind. The correct option is a.
What are enzymes?The difference in energy levels between substrates and products of the reactions determines whether the reactions are spontaneous or non-spontaneous in nature.
Because enzymes do not alter the energy levels of substrates and products, they cannot transform a non-spontaneous process into a spontaneous one. Enzymes only reduce the activation energy of a process, causing the non-spontaneous reaction to proceed at a faster pace.
Therefore, the correct option is a, Enzymes do not show specificity for the substrates they bind.
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TRUE/FALSE. the middle pleistocene humans are morphologically diverse and broadly dispersed throughout time and space.
Ancestors of contemporary humans. Morphologically, Middle Pleistocene people are. various and far scattered over both time and space.
During the Pleistocene, did people exist?Throughout the Pleistocene, the hominid line continued to develop. About 100,000 years ago, a first anatomically modern arose. As human populations grow and spread into new areas, many experts believe that early humans had an influence on other animal species through hunting.
How did the Pleistocene epoch develop?The most recent ice ages, or events of global cold, occurred during the Pleistocene. During chilly epochs, a large portion of the temperate zones of the planet was alternately covered by glaciers, emerging during warmer interglacial epochs when the glaciers receded.
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Angiogenesis is : A) an examination of the arteries and veins.B) having blood drawn into a tube for tests.C) the growth of new blood vessels.D) surgical restructuring of the coronary arteries.E) being able to detect a pulse in arteries.
Angiogenesis is the growth of new blood vessels.
What is angiogenesis?
The process through which new blood vessels develop, enabling the transport of oxygen and nutrients to the body's tissues, is known as angiogenesis. It is an essential function that is necessary for both development and wound healing.However, it also contributes significantly to the development of cancer since tumors, like all other body parts, require a blood supply to survive and develop.Angiogenesis plays a crucial role in the development of cancer, according to findings published in the early 1970s by the late scientist Judah Folkman. Since then, a variety of antiangiogenic drugs have been created with the goal of halting the growth or progression of tumors.The rationale behind these drugs is that cutting off the tumor's blood supply will starve it.Angiogenesis is the process through which your body creates new capillaries from pre-existing blood vessels. Angiogenesis supports your body's ability to accomplish essential tasks, including wound healing. Before you are even born, this process starts, and it lasts the rest of your life.Small blood arteries called capillaries play a crucial role in your body. Your organs and tissues receive blood, nutrients, and oxygen from them. When tissues experience hypoxia, the cells in the damaged region release chemical signals that trigger angiogenesis to start. Like an SOS appeal for assistance. Endothelial cells, which line your blood arteries, organize themselves in a way that enables the growth of new capillaries as a result.This procedure can happen in one of two ways.
Sprouting angiogenesis: This is the process through which endothelial cell sprouts (new growths) appear from your blood artery. They expand in response to chemical cues like vascular endothelial growth factor (VEGF). These sprouts develop into blood vessels that can go to tissue regions in your body that don't have any other blood vessels.Splitting (nonsprouting or intussusceptible angiogenesis): A capillary originates in this situation without sprouting. Rather, the new capillary is created when one blood artery divides into two. Endothelial cells enter the lumen of the blood vessel and form pillars instead of sprouting outward. New capillary branches can grow from these pillars.Hence angiogenesis means formation of new blood cells.
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FILL THE BLANK. 13. If we mentally align the continents to fit Wegener's concept of Pangaea, evidence of Late Paleozoic glacial deposits ________.
If we mentally align the continents to fit Wegener's concept of Pangaea, evidence of Late Paleozoic glacial deposits is much easier to understand than in the current continental configuration.
Explain continental drift theory.
One of the earliest theories among geologists regarding how continents moved over time is known as continental drift. The revolutionary theory of continental drift was supported by fossils of similar organisms found on widely separated continents.
Most people think of the scientist Alfred Wegener when they think of the continental drift theory. Wegener presented his theory that the continents were "drifting" across the planet, occasionally crashing through oceans and into one another, in a study that was published in the early 20th century. This movement was dubbed "continental drift" by him.
Wegener was of the opinion that Pangaea, a vast, unified landmass, formerly included all of the continents of Earth. When describing Pangaea and continental drift, Wegener—an astronomer by training—used geology, biology, and botany. For instance, the extinct reptile Mesosaurus fossils are only discovered in southern Africa and South America. The Atlantic Ocean was too large for the freshwater reptile Mesosaurus, which measured barely one meter long. Mesosaurus's existence suggests a single environment with numerous lakes and rivers.
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All of the following are true about viruses, except
Select one:
a. viruses are cellular and can reproduce on their own.
b. viruses have genetic material, either DNA or RNA
c. viruses can evolve.
d. viruses cannot metabolize carbohydrates.
e. viruses are very small, requiring an electron microscope to see individual particles.
Answer: A
Explanation:
Viruses are cellular and can reproduce on their own.
What are Viruses?A piece of nucleic acid that has been protein-coated is what makes a virus an infectious microbe (either DNA or RNA). A virus has to infect cells in order to use the components of the host cell to manufacture copies of itself because it is unable to reproduce on its own.
The majority of the time, a virus damages the host organism by killing the host cell. Well-known examples of viruses that cause human disease include AIDS, COVID-19, measles, and smallpox.
People can contract viruses. But in reality, a vast range of creatures are infected by viruses. For instance, certain viruses can infect bacteria while others can infect fungi.
Therefore, Viruses are cellular and can reproduce on their own.
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How does the ATP molecule capture, store, and release energy?
When the phosphate group group is broken down by ATP, a significant quantity of energy that was held in the link between the 3rd and 2nd phosphate groups is released.
How is energy captured, stored, and released by ATP?By adding a hydroxyl group to another molecule, ATP can drive biological operations .Special enzymes are responsible for carrying out this transfer, which connects the cellular processes that need energy to the release of electricity from ATP.
How does the molecule of ATP store energy?Adenosine triphosphate is referred to as ATP.The term triphosphate denotes the presence of three phosphate groups in the molecule.The bonds among phosphate groups, particularly the second and third, are where ATP stores its energy.This connection functions as a potential source of chemical energy and resembles a squeezed spring.
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Classify the key elements of replication, transcription, and translation according to the process to which they belong.RNA polymeraseexons and intronsribosomesprimersokazaki fragmentsDNA polymeraseaminoacyl-tRNAspromotercodons and anticodons
Using the existing strand as a template, DNA polymerase joins nucleotides to create a new strand. By using RNA polymerase, transcription involves creating new mRNA from DNA base sequences. On ribosomes, polypeptides are created during translation.
There are three steps to the process: commencement, elongation, and termination. After the DNA is created, it goes through a process called transcription to create messenger RNA, which is later used to produce proteins. The initial stage in unlocking a cell's genetic code is transcription.
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some protists are part of the select answer , a community of tiny drifting or swimming heterotrophic organisms in the sea. the select answer are a community of tiny drifting or swimming photosynthetic organisms in the sea.
No, protists are not part of this community of tiny drifting or swimming photosynthetic organisms in the sea.
What are Protists?
Protists are a diverse group of eukaryotic organisms that can be heterotrophic, autotrophic, or a mix of both. They can be unicellular, multicellular, or colonial. Protists can be found in many different habitats, including freshwater, marine, and terrestrial environments, and some are photosynthetic, while others are not.
What are Eukaryotic organisms?
Eukaryotes are organisms whose cells comprise a nucleus as well as other membrane-bound organelles. All animals, plants, fungi, and protists, as well as the majority of algae, are eukaryotic organisms. Eukaryotes can be single-celled or multicellular.
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What is the name of the proteins around which the dna of eukaryotes are wrapped?.
Answer: Nucleosome
Explanation:
Archaebacteria look much alike organisms from what other kingdom due to their similar shapes?.
Due to their similar shapes, Archaebacteria look alike organisms from the Eubacteria.
There are two kingdoms of bacteria: Archaebacteria and Eubacteria. Both are prokaryotes organism and they have similar shapes, but they are different in some areas, such as:
Archaebacteria live in harsh environments, such as hot springs, deep seas, and salt brines. Eubacteria pretty much live in the same environment as humans.Archaebacteria have smaller genome sequences than Eubacteria.Archaebacteria don't exhibit glycolysis nor Kreb's cycle, while Eubacteria exhibit both.The first image attached below is an image of Halobacterium, a species of Archaebacteria. The second image is an image of E. coli, a species of Eubacteria. You can see how both look somehow similar to each other.
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substance is the semisolid material that suspends and supports the collagen fibers; it is part of the organic materials in the matrix of bone.
Substance is the semisolid material that suspends and supports the collagen fibers is ground substance
The ground substance is the nonfibrillar organic component of the bone matrix and it fills the space around the collagen fibrils and hydroxyapatite crystals. The ground substance contains glycoproteins, proteoglycans,and glycosaminoglycans.
Ground substance provides lubrication for collagen fibers. The components of the ground substance vary depending on the tissue. Ground substance is primarily composed of water and large organic molecules, such as glycosaminglycoprotein soglycans (GAGs), proteoglycans,
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refer to the figure above. what is the function of the agu on the loop of the trna?
The function of the AGU on the loop of the tRNA is that it is an anticodon that attaches to the amino acid and also stabilizes the tRNA-amino acid complex.
What are tRNA molecules?tRNA molecules are one of the three types of RNA found in living organisms that function in protein synthesis.
The other two types of RNA molecules that play a role in protein synthesis are messenger RNA or mRNA, ad ribosomal RNA, or rRNA.
The information used for protein synthesis is in the form of triplet nucleotides called codons. These codons are located on the mRNA. The mRNA is made from the DNA and then travels to the ribosome which is the site of protein synthesis.
The codons found in the mRNA are read by the translation machinery of the ribosome. A complementary triplet nucleotide found on tRNA molecules known as anticodons then determines the amino acid that is coded for by the particular codon.
Each tRNA molecule carries an amino acid and an anticodon that is complementary to an mRNA codon.
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A botanist discovers a plant that lacks the ability to form starch grains in root cells, yet the roots still grow downward. This evidence would refute the long-standing hypothesis that ________.
A) falling amyloplasts trigger gravitropism
B) starch accumulation triggers the negative phototropic response of roots
C) starch grains block the acid-growth response in roots
D) starch is converted to auxin, which causes the downward bending in roots
E) starch and downward movement are necessary for thigmotropism
A botanist discovers a plant that lacks the ability to form starch grains in root cells, yet the roots still grow downward. This evidence would refute the long-standing hypothesis that falling amyloplasts trigger gravitropism.
Whats is the meaning of hypothesis?
A hypothesis is an explanation provided for a phenomena. The scientific method demands that a hypothesis be testable in order for it to be considered a scientific hypothesis. Scientists often establish scientific hypotheses on past data that cannot be adequately explained by existing scientific ideas.
What does a hypothesis look like?
Here are a few examples of simple hypotheses: "Those who eat breakfast outperform students who do not eat breakfast on a math exam." "Students who experience test anxiety before an English exam would score worse than students who do not experience test anxiety," according to the complex hypothesis.
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art-labeling activity: structure of long bones
Long bones have a diaphysis, the middle part of the bone, which connects its two ends, known as the epiphyses. The medullary cavity is lined by the diaphysis, which is formed by compact bone. The epiphysis is composed mainly of spongy bone and is covered by a thin layer of compact bone.
How is a bone structured?The bone structure is made up of several types of connective tissue (dense, bone, adipose, cartilaginous and blood), in addition to nervous tissue. It is the outermost, being a thin, fibrous membrane (dense connective tissue) that surrounds the bone, except at the articulating regions (epiphyses).
What is the difference between long and flat short bones?Short bones are nearly equal in length, width, and thickness. Examples: the patella, formerly known as the "kneecap" (knee bone), the carpal bones (some of the bones in the hand) and the tarsus (some of the bones in the foot). Flat bones are relatively thin and flattened.
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which of the following are the only plant groups have sporophytes and gametophytes that are both photosynthetic and free-living?
Ferns are uncommon among terrestrial plants in that their sporophyte and gametophyte stages are both free living and self-contained. The correct option (D)Seedless vascular plants
Seedless vascular plants have vascular tissue but do not produce flowers or seeds. Seedless vascular plants, such as ferns and horsetails, reproduce through haploid, unicellular spores rather than seeds.
What are seedless vascular plants examples?
Club mosses, horsetails, ferns, and whisk ferns are examples of modern seedless vascular plants.
Why are seedless vascular plants important?
Seedless vascular plants provide many benefits to life in ecosystems, such as food and shelter, as well as fuel and medicine to humans.
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Full Question: Which of the following are the only plant groups have sporophytes and gametophytes that are both photosynthetic and free-living?
Angiosperms
Seedless vascular plants
Gymnosperms
Nonvascolar plants
cam plants keep stomates closed in the daytime, thus reducing loss of water, they can do this because they
Crassulacean acid metabolism (CAM) plants keep stomata closed in the daytime to minimize photorespiration during photosynthesis.
Some plants are able to adapt in dry environment, such as cacti and pineapples. These plants use Crassulacean acid metabolism (CAM) to minimize photorespiration. This process is different with C3 and C4 plant.
Photorespiration is a pathway that competes with the Calvin cycle. It occurs as the rubisco acts on oxygen rather than carbon dioxide. Photorespiration causes sugar synthesis is decrease.
To prevent photorespiration, CAM plants open their stomata at night, allowing carbon dioxide to diffuse into the leaves. This carbon dioxide then converted to organic acid (malate). This organic acid will be stored until the next day. In daylight, CAM plants don’t open their stomata because the organic acid are go out of the vacuole and broken down for releasing carbon dioxide and enter Calvin cycle. It maintains a high concentration of carbon dioxide.
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if there are 20 centromeres in a cell at anaphase, how many chromosomes are there in eachdaughter cell following cytokinesis?
if there are 20 centromeres in a cell at anaphase, 10 chromosomes are there in each daughter cell following cytokinesis.
Before separation sister chromatids stay connected at centromeres. Each chromatid is a daughter chromosome after separation. the cell continues to divide into two daughter cells by Cytokinesis. There are 20 chromosomes in the dividing cell if there are 20 centromeres observed during anaphase. Thus, 10 chromatids will be distributed to each pole of the dividing cell: Now, each chromatid will become a daughter cell chromosome. the following cytokinesis will have 10 chromosomes, each comprised of a single chromatid.
Thus, the response is "10 chromosomes."
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Which proteins facilitate rna polymerase binding at promoters to increase levels of transcription?.
Activator proteins facilitate RNA polymerase binding at promoters to increase levels of transcription
What are activator proteins?
A protein (transcription factor) known as a transcriptional activator promotes the transcription of a gene or group of genes. Since they work to encourage gene transcription and, in certain situations, are necessary for it to happen, activators are thought to have positive control over gene expression. The majority of activators are DNA-binding proteins that interact with promoter- or enhancer-proximal components. An "activator-binding site" is the DNA site that the activator binds to. "Activating region" or "activation domain" refers to the portion of the activator that interacts with the overall transcription machinery through protein-protein interactions.The DNA-binding domain of activator proteins binds to a DNA sequence that is unique to the activator, and the activation domain works to increase gene transcription by interacting with other molecules.Transcription:
A section of DNA that codes for a particular gene gets transcribed into messenger RNA (mRNA) in the cell's nucleus during transcription. The cytoplasm is where translation takes place after the mRNA transports the genetic data from the DNA there. The information included in the mRNA sequence is used to create proteins during translation. The mRNA binds to a ribosome, a component that can read the genetic code. Another RNA type known as transfer RNA (tRNA) transports an amino acid, a component of proteins, to the ribosome when the mRNA passes through it. The mRNA's complementary sequence recognizes the amino acid-carrying tRNA and they bond.The amino acid that each tRNA carried unites with the other amino acids to create a chain of amino acids when it attaches to the mRNA strand.The ribosome releases the finished protein once all of the amino acids specified in the mRNA fragment have been connected.Hence, activator proteins increases the level of transcription.
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which of the following factors are needed for an organism to be successfully classically conditioned?
-contingency
-contiguity
-blocking
-generalization
The following factors are needed for an organism to be successfully classically conditioned is contingency, contiguity.
Describe contingency using an example?A contingency is the possibility of a negative future occurrence, such as a pandemic, economic downturn, natural disaster, fraud, or terrorist attack.
What is a different word for a contingency?Contingency is frequently used interchangeably with the words crisis, emergency, exigency, junction, pinch, strait, and strait. All of these words refer to "a critical or vital time or state of things," but the word "contingency" denotes an emergency or urgency that is viewed as probable but unlikely to occur. planning for emergencies.
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Which of the following statements about hormones is true?
Hormones are targeted to specific organs within the body.
The effects of hormones are long lasting.
It takes time to deliver hormones to the cells.
Hormones are carried by the bloodstream.
All of the answer choices are true of hormones.
The comments made concerning hormones are accurate because they are transported by the bloodstream.
The ideal answer is C.
Which of the following is true regarding hormones?The actual statement regarding hormones is: b. Receptors on target cells interact with hormones. Endocrine glands produce and release hormones into the bloodstream, where they find their way to the cells they are intended to affect.
Are there any organs in the body where hormones are specifically directed?When released into the bloodstream, hormones work as chemical messengers that affect an organ in a different section of the body. Despite the fact that hormones affect every area of the body, only target cells with the right receptors may react.
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Which region shows the population of cells with the highest amount of dna per cell?.
Compare the peaks in regions A, B, and C of the histogram for the control sample. Region C displays the cell population with the most DNA per cell.
The correct response is G1 for region A, S for region B, and G2 for region C. In addition to biology, region c displays the cell population with the most DNA per cell. As the S phase develops, the amount of DNA in each cell varies, giving the S phase cells a range of fluorescence intensities. Most cells are present during the G1 phase of the cell cycle.
Comparing the peaks in the control sample's histogram's regions A, B, and C, we can conclude that region C represents the cell population with the highest DNA content per cell.
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Your question is incomplete. Please find the complete question below.
In the control sample, compare the peaks in the histogram in regions A, B, and C.
Which region shows the population of cells with the highest amount of DNA per cell?
Region C
