Answer:
The crime lab MOST likely wants to use Polymerase Chain Reaction (PCR) to create coples of DNA (D).
Explanation:
A DNA thermal cycler is a piece of laboratory equipment used in Polymerase Chain Reaction (PCR), a laboratory technique used to amplify specific DNA sequences. During PCR, the DNA sample is subjected to repeated cycles of heating and cooling, which causes the DNA to denature and anneal to primers (short DNA sequences complementary to the target DNA sequence). The heat-stable polymerase enzyme then extends the primers, synthesizing new complementary DNA strands. This results in the amplification of the target DNA sequence, creating millions to billions of copies of the specific DNA sequence in just a few hours.
Thus, the most likely reason why the crime lab would want to purchase a DNA thermal cycler is to use PCR to create coples of DNA (Option D).
Answer:D. They want to use Polymerase Chain Reaction (PCR) to create copies of DNA.D. They want to use Polymerase Chain Reaction (PCR) to create copies of DNA.
Explanation:
D. They want to use Polymerase Chain Reaction (PCR) to create copies of DNA.
What is a cell analogy example?
You may compare a cell to a city! Each component of the cell serves a distinct task. Depending on their similar functions, the components of the cell could be likened to the components of a municipality.
What's an illustration of an analogy?This analogy is a connection used to demonstrate a concept or provide an explanation. For instance, "You never anticipate what you're going to get in life—like it's a box of chocolates." When making an analogy, metaphors as well as similes are acceptable.
Which five analogies are examples of?You will learn more about the function of this literary device by using these analogy examples. Romeo & Juliet's A Title Is a Rose. Life is like the Macbeth Shadow.
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how do yeast cells communicate
Yeast cells communicate through different ways to one another but the main way is through the release of small molecules called as phermones.
These pheromones can be released from one incentive cell to another, and can induce changes in the behaviour of the entering cell. In addition, incentive cells can also communicate via direct contact with one another through cell face receptors.
Eventually, incentive cells can also communicate through quorum seeing, which is the capability to smell the presence of other incentive cells in the terrain. This allows them to coordinate their conditioning, similar as when to switch from turmoil to respiration. In summary, incentive cells are suitable to communicate with one another in a number of different ways, including the release of pheromones, direct contact, and quorum seeing.
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What do we call it when we communicate about how we communicate?
We call how we communicate metacommunication.
What is metacommunication?A secondary communication that describes the intended interpretation of a piece of information is known as meta-communication. It is predicated on the notion that the same message conveyed through various meta-communications might signify completely different things, including their opposite, as in irony.
A secondary expression of intent, known as metacommunication, can either support or contradict what you're expressing out loud. In other words, it refers to the signals you convey to others through your body language.
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a bird called the wandering albatross spends most of its life flying over the oceans of the southern hemisphere, stopping only to breed on storm-swept islands near antarctica. you would predict that the breast muscles of the wandering albatross:
The breast muscles of a bird is Pectoral muscles.
There are two pairs of large muscles that move the wings in flight that is the pectoralis, by which the bird lowers the wing, and the supracoracoideus, by which the bird raises the wings. The supracoracoideus lies in the between the angle of the keel and the plate of the sternum and along the coracoid. By this they creates a pulley like action by means of a tendon that passes through the canal at the junction which is formed by the coracoid, furcula, and scapula and then they attaches to the dorsal side of the head of the humerus. The pectoralis lies over the supracoracoideus and it attaches to the head of the humerus. Striated muscles of birds contain a respiratory pigment known as myoglobin. There are relatively few myoglobin-containing cells in white meat so their texture is white whereas the red meat contains a good amount of myoglobin. The white meat muscle is used in short, rapid bursts of activity, whereas the red meat muscle is characteristic of muscles used continuously for long periods and especially in muscles used during diving.
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By reading the description of the life processes of the organism below which of the following answer choices
is the most appropriate classification?
a. Autotroph
b. Heterotroph
c. Decomposer
d. Carnivore
By reading the description of the life processes of the autotrophs is the most appropriate classification.
What are the characteristics of autotrophs?An autotroph or primary producer is an organism that produces complex organic compounds using carbon from simple substances such as carbon dioxide, generally using energy from light or inorganic chemical reactions.
Plants are the most familiar type of autotroph, but there are many different kinds of autotrophic organisms. Algae, which live in water and whose larger forms are known as seaweed, is autotrophic.
Examples of organisms that are autotrophic are plants and algae, and they have specialized cell organelles that have the ability to power the process of photosynthesis.
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legionella, neisseria and pseudomonas are genera of bacteria that are examples of
Legionella, Neisseria, and Pseudomonas are genera of bacteria that are part of the family Gammaproteobacteria.
They are all gram-negative bacteria, meaning they have a thin outer membrane that makes them resistant to some antibiotics. Legionella is a genus of rod-shaped bacteria that includes the species Legionella pneumophila, which is the cause of Legionnaires' disease. Neisseria is a genus of bacteria that includes the species Neisseria gonorrhoeae, which is the cause of gonorrhea, and Neisseria meningitidis, which is the cause of meningococcal disease. Pseudomonas is a genus of bacteria that includes the species Pseudomonas aeruginosa, which can cause severe infections in the lungs, urinary tract, and skin.
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TRUE/FALSE. the first symptom of mitral stenosis often is as a result of pulmonary venous hypertension.
TRUE. Pneumatic pulmonary venous hypertension is frequently the initial sign of mitral stenosis.
Breathlessness, especially after physical activity or even when you lie down, is one sign of mitral valve stenosis. fatigue, particularly after engaging in more activities. enlarged legs or feet. Mitral stenosis is commonly complicated by pulmonary hypertension. High left atrial pressure, pulmonary arteriolar tightness, & obliterative alterations in the pulmonary vascular bed cause increased pulmonary artery pressure, which often responds to surgical mitral stenosis alleviation. In the adult population, peripheral pulmonary artery insufficiency (PPAS) is a disease that is underdiagnosed. PPAS can cause pulmonary hypertension, however it's more likely to be misinterpreted as either chronic thromboembolic pulmonary hypertension or idiopathic pulmonary arterial hypertension.
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which plate might represent a successful aseptic transfer of a pure e. coli culture broth to a plate?
An aseptic approach is used to keep bacteria from the environment (for example, from the air) from infected cultures.
This is why, before and after relocating bacteria, we burn the mouths of the culture tubes. A sterile media is one that is devoid of all living organisms.
It is typically sterilised by heating it to a temperature that kills all contaminating germs.
Finally, when working with microorganisms, a method for moving developing organisms from a pure culture to a sterile medium without adding undesirable outside contamination.
The aseptic technique refers to this strategy of avoiding harmful bacteria from entering.
The aseptic approach entails gaining both manual dexterity in handling pathogens safely and cerebral dexterity in planning what you will do with the microbe.
The aseptic technique, which is intended to build a barrier between microorganisms in the environment and the sterile cell culture, is based on a series of processes designed to decrease the possibility of contamination from all these sources.
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How many moles of magnesium chloride are there in 148 grams of magnesium chloride?.
1.554442238816872 moles
Answer Key. Biology I: Unit 2 (A DNA Mastery Unit) - Worksheet 1: DNA Structure. 1. What do the letters DNA stand for?
Humans and nearly all other species carry their genetic information in DNA, also known as deoxyribonucleic acid.
What is DNA and where is it found?
Every cell in our bodies has a nucleus that contains the DNA that determines heritable features. Adenine, cytosine, guanine, and thymine are the bases—pairs of building blocks—that connect the two tangled strands of DNA. The double-stranded structure of DNA resembles a ladder, and bases make up its rungs.
What is DNA composed of?
Nucleotides are a series of molecules that make up DNA. A nitrogen base, a sugar group, and a phosphate group are all components of each nucleotide. DNA can contain the nitrogen bases adenine (A), thymine (T), guanine (G), and cytosine (C) (C). billions of different types of
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a science researcher has developed a computer model of the process of dna replication in a eukaryotic cell. the model includes the following sequence of bases in one strand of the dna molecule. aacctggccatggacctttatataaactaggat the researcher wants to revise the model to show the transcription of dna to form mrna. scientists have observed that the same gene may produce several different mrna molecules. how could the researcher's model show this variety of mrna molecules? identify the stage that introduces this variety.
The stage that introduces variety in the transcription of DNA to form mRNA is alternative splicing.
In eukaryotic cells, after DNA is transcribed into a single mRNA molecule, the mRNA molecule can undergo alternative splicing, a process in which different combinations of exons are spliced together to produce multiple different mRNA molecules from a single gene. This results in the expression of different proteins from a single gene, allowing the cell to regulate gene expression and produce a variety of proteins with different functions.
The researcher's model could show this variety by incorporating alternative splicing into the transcription process. This could involve depicting the different combinations of exons that can be spliced together to form different mRNA molecules, as well as the corresponding proteins that are produced from each mRNA molecule.
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Experimental Insight 2.1 describes data on the kernel color distribution of bicolor corn, collected by a genetics class like yours. To test the hypothesis that the kernel color of bicolor corn is the result of the segregation of two alleles at a single genetic locus, the class counted 9882 kernels and found that 7506 were yellow and 2376 were white. Use chi-square analysis to evaluate the fit between the segregation hypothesis and the class results. Calculate the chi-square value for this experiment.
The chi-square value for this experiment is 25.5220.
To perform chi-square analysis, we need to compare the observed frequency of yellow and white kernels with the expected frequency, if the segregation hypothesis were true.
First, we can calculate the expected frequency of yellow kernels as follows:
Expected frequency of yellow kernels = (total number of kernels) * (proportion of yellow kernels in a heterozygote)^2
where the proportion of yellow kernels in a heterozygote is assumed to be 0.5.
Expected frequency of yellow kernels = 9882 * (0.5)^2 = 2500
Similarly, the expected frequency of white kernels can be calculated as:
Expected frequency of white kernels = 9882 * (0.5)^2 = 2500
Next, we can calculate the chi-square value as the sum of the squared differences between the observed and expected frequencies, divided by the expected frequency:
Chi-square = Σ [(observed frequency - expected frequency)^2 / expected frequency]
Chi-square = [(7506 - 2500)^2 / 2500] + [(2376 - 2500)^2 / 2500]
= (5006^2 / 2500) + (124^2 / 2500)
= 25.0244 + 0.4976
= 25.5220
So the chi-square value for this experiment is 25.5220.
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to maintain the total adult christmas island crab population at 120 million (males females), how many offspring per female must survive to adulthood and reproduce?
A female red-crab is capable of reproducing to 100,000 eggs, which she stores in her abdominal sac. Females migrate into the ocean when the moon begins to wane.
Australia's Christmas Island is home to red crabs. Strands of rain forest cover most of Christmas Island's central plateau. Both a rainy and dry season are experienced on the island, which has a tropical climate. The Christmas Island rainforest floor is home to more than 120 million red crabs. In deep rock crevices or dirt tunnels, red crabs dwell alone. For the majority of the year, crabs remain in the shadow of their home. Crabs start moving toward the beach in October or November, just before the resumption of the rainy season. Females spend the first 12 to 13 days of this stage incubating their eggs in burrows dug in the ground or on coastal rocks and it is capable of reproducing 100,000 eggs This timeframe is in harmony with both the moon cycle and the tides.
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briefly describe false placenta mammals
Answer: Placental mammals are therian mammals in which a placenta develops during pregnancy. The placenta sustains the fetus while it grows inside the mother’s uterus. Placental mammals give birth to relatively large and mature infants. Most mammals are placental mammals.
Explanation:
Answer:
Any member of the mammalian group characterized by the presence of a placenta, a vascular organ that develops during gestation, which facilitates exchange of nutrients and wastes between the blood of the mother and that of the fetus.
explain why dna gyrase is required for efficient unwinding of dna by helicase at the replication fork.
DNA gyrase, also known as topoisomerase, lowers supercoiling (relieves tension) that accumulates during DNA unwinding, preventing DNA breaking.
Why is DNA gyrase required for replication? Without DNA gyrase, strain would accumulate prior to the replication fork as a result of the unwinding process. an enzyme that modifies a DNA molecule's supercoiled shape.Opening DNA replication origins and eliminating positive supercoils that build up in front of replication forks and transcription complexes are both important tasks performed by DNA gyrase.DNA gyrase, also known as topoisomerase, lowers supercoiling (relieves tension) that accumulates during DNA unwinding, preventing DNA breaking.Opening DNA replication origins and eliminating positive supercoils that build up in front of replication forks and transcription complexes are both important tasks performed by DNA gyrase.To learn more about DNA gyrase refer to:
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why did scientists think that the macromolecule from which life arose would have to be a nucleic acid?
Bacterial nucleic acids are capable of replicating itself.
Hermann Staudinger, a Nobel laureate, first mentioned high molecular compounds in his first pertinent paper on this subject in the 1920s, but he later added "molecule" to the end of the term to create macromolecule (in excess of 1,000 atoms). When Berzelius first used the term "polymer" in 1832, it had a different meaning than it does today: it merely referred to another type of isomerism, such as that which occurs with benzene and acetylene, and had little to do with size.
Disciplines use the phrase differently when referring to big molecules. For instance, whereas macromolecules are referred to in biology as the four massive molecules that make up living things, the term may also be used in chemistry to describe groups of two or more molecules bound together by intermolecular forces rather than covalent bonds.
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two polynucleotide strands may bind to each other to form a double-stranded helical molecule, such as dna. what parts of the nucleotide are involved in this type of bond?
A nucleotide is the basic building block of nucleic acids, such as DNA and RNA, which store and transmit genetic information.
The fundamental units of nucleic acids, which carry and store genetic information, are nucleotides.
The sequence of nitrogenous bases in nucleotides determines the genetic code and provides instructions for the production of proteins.
Nucleotides are essential for the functioning of cells and for the transmission of genetic information from one generation to the next. The following three components make up a nucleotide:
A nitrogenous base: There are four types of nitrogenous bases in DNA: adenine (A), cytosine (C), guanine (G), and thymine (T). RNA also contains adenine, cytosine, and guanine, but instead of thymine, it has uracil (U)
A sugar molecule: The sugar molecule in DNA is deoxyribose and in RNA it is ribose.
A phosphate group: The phosphate group is composed of one phosphorus atom and four oxygen atoms. It provides the energy for chemical reactions in cells.
These three parts combine to form a nucleotide, the basic building block of nucleic acids (DNA and RNA).
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the history and physical examination is a detailed process that attempts to establish a connection between the information provided by the patient about their health and lifestyle with the physical findings from the inspection of each of the eleven body systems. which of ko’s symptoms is paired incorrectly with the body system that might produce that symptom? Sweating; integumentary system.
Shortness of breath; respiratory system.
Feeling feverish; urinary system.
Heartburn; digestive system.
Heartburn; digestive system. The way patients present varied considerably. There will be many people who are worried.
There are several ways in which something could appear. a quiet patient who can only respond to direct questions with monosyllabic responses. The patient who appears to be overconfident and who reacts to (or increases) their fear by showing up with a bag full of online printouts, worried that they have Von Noodles disease, which might be fatal. The irate patient who has been waiting for their appointment or in the waiting area and has had time to consider the worst-case scenario. Recurring patient who necessitates unending assurance. Each is significant even though the two may not be similar.
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Which best explains why short and long DNA fragments are produced during replication? There are two replication forks in a relication bubble DNA polymerase requires RNA primase to begin replication DNA polymerase III does not have 5'-3' exonuclease activity The two strands of DNA at the replication fork are antiparallel.
The reason short and long DNA fragments are produced during replication is due to the fact that the two strands of DNA at the replication fork are antiparallel.
During DNA replication, the double-stranded DNA molecule is unwound and separated into two single strands by helicases, creating a replication fork. The two single strands serve as templates for new strand synthesis by DNA polymerases. However, because the two strands of DNA run in opposite directions (5'-3' on one strand and 3'-5' on the other), DNA polymerase can only add nucleotides to the 3'-OH end of the growing strand.
This results in the creation of a leading strand, which can be continuously replicated in the 5'-3' direction, and a lagging strand, which is replicated in short fragments (Okazaki fragments) in the opposite direction. The lagging strand fragments are later joined together by ligase to form a continuous strand.
Therefore, the antiparallel nature of the two strands of DNA at the replication fork results in the production of both short and long DNA fragments during replication.
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What chromosomal type differentiates males from females?
Each cell in a person typically contains one set of sex chromosomes. Males have one X and one Y chromosome, whereas females have two X chromosomes.
Male DNA:
Each cell contains 46 chromosomes, which are divided into 23 pairs. The allosome, or sex chromosome, is the last or 23rd pair. One X and one Y chromosome are often seen in males. A pair of non-homologous chromosomes and 22 pairs of homologous chromosomes are present in the men (XY). The SRY gene, which determines sex in men, is located on the Y chromosome.
Female DNA:
Two polynucleotide chains that coil around one another to form a double helix make up the polymer known as deoxyribonucleic acid. All known organisms and many viruses contain genetic material in the polymer that is necessary for their growth, development, and reproduction. They are both nucleic acids, as is DNA.
There are two X chromosomes in the female DNA. There are 23 pairs of homologous chromosomes in them. The cell nucleus houses all of these DNA components in close quarters. The SRY gene is absent in them. SRY, or the sex-determining region Y, is a region that can only be found on the Y chromosome.
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Each cell in a person typically contains one set of sex chromosomes. Males have one X and one Y chromosome, whereas females have two X chromosomes.
Male DNA:
Each cell contains 46 chromosomes, which are divided into 23 pairs. The allosome, or sex chromosome, is the last or 23rd pair. One X and one Y chromosome are often seen in males. A pair of non-homologous chromosomes and 22 pairs of homologous chromosomes are present in the men (XY). The SRY gene, which determines sex in men, is located on the Y chromosome.
Female DNA:
There are two X chromosomes in the female DNA. There are 23 pairs of homologous chromosomes in them. The cell nucleus houses all of these DNA components in close quarters. The SRY gene is absent in them. SRY, or the sex-determining region Y, is a region that can only be found on the Y chromosome.
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how is a bat's wing similar to a human arm in function?
Explanation:
A bat's wing and a human arm have similar functionalities in terms of movement and control.
Both the bat's wing and the human arm have a skeletal structure consisting of bones and joints, allowing for a wide range of motion and control of the limb. Additionally, both have a network of muscles that allow for the precise and fine control of the limb, enabling movement and manipulation of objects.
While the shape and structure of the bat's wing and human arm are vastly different, both serve a similar purpose in terms of movement and control, making them functionally similar.
Is Anaphase I of Meiosis and Mitosis Different?
Yes, Anaphase I of Meiosis and Mitosis are different. In Mitosis, the sister chromatids are pulled apart and moved to opposite poles, while in Meiosis I, homologous chromosomes are pulled apart and moved to opposite poles.
What is Meiosis?
Meiosis is a specialized form of cell division that produces cells with half the number of chromosomes of the parent cell. This process is essential for sexual reproduction as it is responsible for generating the male and female gametes that are then used to create a new organism. During meiosis, the chromosomes of the parent cell are divided into two sets of daughter cells, each with half the number of chromosomes of the parent cell. This process is also referred to as reductional division because it reduces the number of chromosomes in the daughter cells.
Therefore, Yes, Anaphase I of Meiosis and Mitosis are different.
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which process is responsible for movement of water between the interstitial and intracellular components
The process responsible for movement of water between the interstitial and intracellular components is called osmosis.
Osmosis is the transfer of water molecules via a selectively permeable membrane, such as the cell membrane, from a region of high concentration to an area of low concentration. Water moves into the cell to balance the concentration gradient when the concentration of solutes (such as ions, carbohydrates, or proteins) inside the cell is higher than outside, causing the cell to inflate. On the other hand, water travels out of the cell, causing the cell to contract, when the concentration of solutes is higher outside the cell than inside. The balance of water and solutes within the cell is maintained and its form and function are preserved through the passage of water between the interstitial and intracellular components.
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3CuCl2 + 2Al ---> 2AlCl3 + 3Cu
Which type of reaction is this?
decompostion
single displacement
synthesis
double displacement
combustion
Glands that secrete testosterone and produce sperm.a. Trueb. False
True. The main androgen that controls spermatogenesis in the testis is testosterone.
As a paracrine factor that diffuses into the seminiferous tubules, testosterone is generated by the Leydig cell in response to stimulation with luteinizing hormone (LH). Sperm and seminal fluid are produced by the male reproductive system's glands. Seminal fluid is a component of semen, which contains and shields the sperm, and is provided by the prostate gland, seminal vesicles, and bulbourethral glands. Hormones required for sperm production are produced by the testicles, brain, and pituitary. Changes in these hormones, as well as hormones produced by other organs like the thyroid and adrenal gland, may reduce sperm production.
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You find a way to attach either a red or green fluorescent dye to nucleotides. Double-stranded dna molecules with both strands labeled red fluoresce red, those with both strands labeled green fluoresce green, and those with one strand labeled red and the other green fluoresce yellow. You grow human cells in the presence of "red" nucleotides until both dna strands of all chromosomes fluoresce red. You then allow one round of dna replication in the presence of "green" nucleotides. What pattern of fluorescence do you expect to see in the dna molecules?.
one chromatid green, the other yellow. A double-stranded DNA molecule with both of its strands labelled red will glow red.
A double-stranded DNA molecule with both of its strands labelled green will glow green, and a double-stranded DNA molecule with one of its strands red and the other green will glow yellow. The enzyme DNA helicase will carry out the first step of DNA replication by binding to the origin of replication. The two DNA strands are unwound by this enzyme, allowing other enzymes to bind to the DNA sequence and initiate the replication process. Each strand of the DNA double helix serves as a template for the synthesis of a new, complementary strand since DNA replication is semiconservative.
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When French geneticist Lucien Cuénot was unable to obtain a pure- breeding yellow mouse when crossing yellow mice with each other, he had discovered pleiotropy O polydactyly O polygenic inheritance testcross
French geneticist Lucien was unable to obtain a pure- breeding yellow mouse when crossing yellow mice with each other he discovered polygenic inheritance so the correct option is B.
Polygenic inheritance is a type of heritage that involves multiple genes. These genes interact with each other and can be passed on from generation to generation. Polygenic heritage can be used to explain the heritage of traits similar as height, weight, and skin color.
Traits like these are determined by multiple genes, as opposed to a single gene. Each gene has a small effect on the particularity, and the concerted effect of numerous genes is frequently seen in the particularity.
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How do we build our new strands of DNA?
Answer:
New DNA is made by enzymes called DNA Polymerases.
Explanation:
Hope it helps:)
The double helix shape of DNA, a two-stranded molecule that seems to be twisted, is what distinguishes it from other molecules. Each of the two strands has a sizable amount of nucleotides. These are the individual DNA units that make up a cell.
What role of DNA polymerase in formation of DNA?Since DNA polymerase cannot initiate a new strand, it can only add nucleotides to an existing one, primers are required. It needs a brief primer (about 20 nucleotides), which is typically generated of RNA nucleotides during DNA replication by the enzyme primase.
The 3'end of the primer is where DNA polymerase begins adding complementary nucleotides to the template strand.
Double-checking the incoming nucleotide - Typically, the fresh, incoming nucleotides in the expanding chain pair with the proper complementary nucleotide.
Therefore, New DNA is made by enzymes called DNA Polymerases.
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What are homologous structures vestigial structures?
Answer:
Vestigial structures are body parts that have lost their use through evolution. Homologous structures are structures that have a common function and suggest common ancestry. Similar embryos suggest that these animals are related and have common ancestors.
The term "vestigial structures" refers to bodily components that have evolved out of use. Homologous structures are those that act similarly and imply a shared heritage.
Are homologous structures vestigial?Vestigial structures are similar to fully developed structures that are passed down across related lineages. As a result, they offer solid proof of shared ancestry and can show us where the species with the vestiges of structures first appeared in evolution.
What do vestiges of constructions mean?A biological structure known as a vestigial structure is one that has significantly diminished in size and lost a significant ancestral function. Famous examples include the tiny wings of kiwis and emus, as well as the eyes of blind cave salamanders and fish.
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A sequence of three consecutive bases in a tRNA molecule which specifically binds to a complementary codon sequence in mRNA is known as_____ a.Triple b.Non sense codon c. Anticodon d.Termination codon
A sequence of three consecutive bases in a tRNA molecule which specifically binds to a complementary codon sequence in mRNA is known an anticodon.
The particular code in the tRNA that permits it to identify a certain codon is termed ananticodon, and it is again a triplet of nucleotide bases.
The tRNA anticodon is a three-nucleotide sequence that is the complement of the three-nucleotide sequence in the mRNA codon. The anticodon's job is to assist the tRNA in locating the proper amino acid that the mRNA codon indicated.
D anticodon is the right answer. Transfer RNAs (tRNAs) transport amino acids to the ribosome. They serve as "bridges," connecting a codon in an mRNA to the amino acid for which it codes. Each tRNA has a set of three nucleotides known as an anticodon.
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