Watson and Crick concluded that a large purine molecule (adenine or guanine) always binds to a small pyrimidine molecule (thymine or cytosine), so the distance between the two DNA strands is always the same.
Describe the double helix model of DNA.The discovery of the double helix, the twisted ladder structure of deoxyribonucleic acid (DNA), by James Watson and Francis Crick in 1953 was a milestone in the history of science and marked the emergence of modern molecular biology. That is concerned with genes control chemical processes within cells.
A double helix represents the appearance of double-stranded DNA. Double-stranded DNA consists of two linear strands that run opposite or antiparallel to each other and twist. Each strand of DNA within the double helix is a long linear molecule made up of small units called nucleotides that form a strand. Each chain has a backbone of alternating deoxyribose sugar and phosphate groups.
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What is the complementary 3'-5' strand of DNA if the 5'-3' strand is A T G G T A G C T A A C C T T?
Answer:
T A C C A T C G A T T G G A A
Explanation:
"A" pairs with "T", and "C" pairs with "G".
Mitosis can occur in both haploid and diploid cells, but meiosis cannot occur in haploid cells. Why not?.
Because the cell is still haploid after mitosis, haploid cells can undergo mitosis. Meiosis takes place in gamete-producing germline cells (sperm and egg).
Why are haploid cells unable to undergo meiosis?Because meiosis needs pairs of homologous chromosomes, it cannot occur in haploid cells.
Can a haploid cell go through meiosis? Why, if at all, can a haploid cell undergo mitosis?Haplodiploid cells cannot undergo meiosis. Gametes are created by mitotic division in a haploid organism (n). After fertilisation, these gametes (n) are joined to create a diploid zygote. Following meiotic division, this zygote or diploid cell creates a new haploid organism.
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. During?, food molecules are
broken down to form CO₂ and H₂O
and release large amounts of energy.
(cellular respiration or fermentation)
Cellular respiration glucose is broken down in the presence of oxygen to produce carbon dioxide and water.
Aerobic cellular respiration has three steps, glycolysis, the citric acid cycle and the electron transport chain. Stage of cellular respiration in which carbon dioxide release takes place is the citric acid cycle.
During the process of photosynthesis carbon dioxide is converted into carbohydrate . In plant cell, the water is oxidized, and loses electrons, while the carbon dioxide is reduced, or gains electrons. This makes water into oxygen and the carbon dioxide into glucose.
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How is Mitosis different from binary fission?
Even in the absence of any mutations or crossing over, what process would still ensure genetic variability in the gametes produced by a single individual?.
None of these procedures would still guarantee genetic diversity in the gametes that a single person produces.
How does genetics work?The study of genetic makeup and heredity, or how particular characteristics or characteristics are passed through mother to daughter as a result of developments in DNA sequence, is known as genetics. A genome is a section of DNA that has the instructions needed to create one or more enzymes that support bodily function.
Which traits are genetic?Parents pass on traits or characteristics to their children through their DNA, such as brown eyes and genetic makeup. There are many diseases and medical conditions that can be passed on genetically. Sometimes a same feature might exist in several various forms.
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Which kind of rock is formed when lava leaves a volcano and cools?
A. sedimentary
sedimentary
B. igneous
igneous
C. conglomerate
conglomerate
D. metamorphic
metamorphic
Answer:
B
Explanation:
Kinda already explained, but when the molten lava solidifys it turns into igneous rock.
It isn't sedimentary because those are formed by depositions
It isn't metamorphic because those are formed by heat and pressure. (I can see how this could be confusing) but metamorphic rocks really just means that it's changing it's form. before the pressure and heat, it could of already been a sedimentary rock and changed.
it isn't conglomerate rock because those are just pebbles cemented together plus it's a type of sedimentary rock.
Why is the meaning of trait-level comparisons between cultures not always clear?.
The meaning of trait-level comparisons between cultures not always clear because it may not be true that the same traits can be used to meaningfully describe people from different cultures.
What is culture?Culture is described as an umbrella term which encompasses the social behavior, institutions, and norms found in human societies, as well as the knowledge, beliefs, arts, laws, customs, capabilities, and habits of the individuals in these groups.
Culture is known to have five basic characteristics which is highlighted below
It is learned, It can be shared,Culture can be based on symbols, Culture can be integrated, and It is no doubt that Culture is dynamic.A cultural trait can be described as a cultural element, whether physical or not, that has been created by a specific culture and then transmitted to people in it by some form of communication. These cultural traits exist as part of a larger system of culture.
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how are photosynthesis and respiration related to each other?
Answer:
Photosynthesis converts carbon dioxide and water into oxygen and glucose. Glucose is used as food by the plant and oxygen is a by-product. Cellular respiration converts oxygen and glucose into water and carbon dioxide. Water and carbon dioxide are by- products and ATP is energy that is transformed from the process.
Answer:
photosynthesis converts cabon dioxide and water into oxygen and glucose
while respiration converts glucose and oxygen into water and carbon dioxide
Select all of the following pieces of evidence Dr. Corbett cites to demonstrate the development and value of the NIH/Moderna vaccine?
neutralizing antibodies were observed even in older adult cohorts
antibodies increase in response to dose in animals and humans
individuals who received the placebo vaccine did not have neutralizing antibodies
a proof of concept mRNA vaccine against a mouse coronavirus was very effective at protecting against a lethal exposure
Neutralizing antibodies had been discovered even in older grownup cohorts.
Antibodies growth in reaction to dose in animals and humans
A proof of idea mRNA vaccine towards a mouse coronavirus changed into very effective at protective towards lethal publicity.
The Moderna vaccine after two doses and a first booster dose has been proven to have very high effectiveness in opposition to extreme disorder, hospitalizations, and demise, and modest effectiveness in opposition to symptomatic contamination.
The records helping the FDA's authorization of an unmarried booster dose of the Moderna COVID-19 Vaccine, Bivalent for each the 6 years via 11 years age organization and 12 thru 17 years age organization is based on the FDA's previous evaluation of immune reaction and safety records from a clinical observe in adults 18 years of age.
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and like someone gets cancer from UV rays, can it be passed down to their children
Answer:
No, but could depend
Explanation:
Some types of skin cancer are hereditary, and being prone to getting cancer from UV lights can be passed down to an offspring.
the indicated organ is the which contains a high concentration of lymphatic nodules that control the bacteria entering the large intestine by immune responses
The mucosa that lines the ileum of the small intestine develops into Peyer's patches, which are collections of lymphatic nodules. They are crucial in protecting the gastrointestinal system from the numerous infections that enter there.
What kind of cell makes up the majority of the lymphatic system?The lymph node's lymphatic endothelial cell region is where macrophages are mainly found. They can be divided into two subpopulations, the subcapsular sinus macrophages (SSM) and the medullary sinus macrophages, depending on where they are in relation to one another along the lymph node lymphatic network.
In the neck, groyne, and armpits, where the major lymphatic vessel junctions are concentrated, they are most frequently found. The capsule and the cortex are the two main compartments that make up each lymph node.
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Which way do particles move during active transport? Choose 1 answer: Choose 1 answer: (Choice A) A From one area of high concentration to another area of high concentration (Choice B) B From areas of high concentration to areas of low concentration (Choice C) C From one area of low concentration to another area of low concentration (Choice D) D From areas of low concentration to areas of high concentration
Answer:
(Choice D) D From areas of low concentration to areas of high concentration
Explanation:
It is called active transport because moving molecules from areas of low concentration to areas of high concentration requires energy. Active = takes energy. Molecules moving from a low concentration to a high concentration requires energy. Hope that helps keep it straight.
the movement of glucose from the lumen into the proximal tubule cells is an example of . see section 40.3 (page) . the movement of glucose from the lumen into the proximal tubule cells is an example of . see section 40.3 (page) . primary active transport secondary active transport passive diffusion facilitated diffusion
The movement of glucose from the lumen into the proximal tubule cells is an example of secondary active transport.
Proximal tubule is the first nephron segment after the glomerulus where reabsorption commences. The proximal tubule has the role contributing towards fluid, electrolyte, and nutrient homeostasis. It is also involved in potassium reabsorption.
Secondary active transport is the type of active transport where the movement of a molecule against its concentration gradient is facilitated by the energy released by the downhill movement of another molecule. The movement of the two molecules can be in opposite direction or in the same direction. The example of such a transport is glucose symporter SGLT1.
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What would happen if a cell transcribed and translated a gene’s intron by mistake?(1 point).
Answer: If a cell transcribed and translated a gene's intron by mistake, then additional amino acids would be inserted into the protein
Explanation:
When the muscle responds to stimulation by hormones or nerves, it is called _________.
When the muscle responds to stimulation by hormones or nerves, it is called ____Excitability_____.
What is muscle excitability?Excitability is the ability to respond to stimuli provided by motor neurons or hormones. Extensibility is the ability of a muscle to be stretched. Calcium is an important element. It ensures the structural integrity of the skeleton and regulates important physiological processes. H. Nerve excitability, muscle contraction and blood clotting. The dystrophin-associated protein complex maintains muscle excitability by regulating the localization of Ca²⁺ dependent K⁺ (BK) channels.
Quantitative understanding of muscle excitability of skeletal muscle tissue using muscle bioreactor systems, implantable muscle stimulators, and electrical impulses to induce muscle tissue contraction both in vitro and in vivo are important.
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In the 17th century, british biologist robert hooke discovered the cell. A little more than a century later, french botanist rené henri dutrochet concluded that all living things arise from cells, and all cells are derived from other cells. Dutrochet's proposal indicates that —.
The cell was discovered by Robert Hooke. The highest level of organization found in a living thing are cells.
A cell is what?All living things, including the tissues of the body, are made up of cells, which are the smallest unit capable of supporting life on its own. It is a little portion of the organism that houses the nucleus.
The three essential parts of a cell are the cell membrane, nucleus, and cytoplasm. The cell membrane keeps outside chemicals out and controls how they enter and leave the cell.
Robert Hooke introduced the name "cell" in 1665, deriving from the Latin cella, which meaning "storeroom or chamber," after using a very early microscope to study a piece of cork. Additionally, it stated that the rectangular chambers reminded him of some monastic cells.
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the protein hemoglobin carries oxygen from the lungs to the tissues. this is an example of protein's role in
Red blood cells contain a protein called hemoglobin. An illustration of red blood cells showing the hemoglobin protein. This protein serves as a transporter of oxygen from the lungs to tissues.
What are proteins?The term "protein" refers to a macro- and large-scale biomolecule that has one or more lengthy chains of amino acid residues. An amino acid chain makes up the basic building block of proteins.
When oxygen binds to the heme portion of the hemoglobin molecule in red blood cells during physiological respiration, oxyhemoglobin is created. This procedure takes place in the pulmonary capillaries close to the lung's alveoli.
Thus, red blood cells contain a protein called hemoglobin. An illustration of red blood cells showing the hemoglobin protein. This protein serves as a transporter of oxygen from the lungs to tissues.
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A nurse is providing teaching to the mother of an infant who has a prescription for digoxin. Which of the following instructions should the nurse include?
A. "Do not offer your baby fluids after giving the medication."
B. "Digoxin increases your baby's heart rate."
C."Give the correct dose of medication at regularly scheduled times."
D."If your baby vomits a dose, you should repeat the dose to ensure that he gets the correct amount."
C."Give the correct dose of medication at regularly scheduled times."
Digoxin is used to treat irregular cardiac rhythms and heart failure (arrhythmias). It improves heart performance and aids in maintaining heart rate management.
Digoxin is available as a tablet, capsule, or liquid for children to ingest. Ordinarily, digoxin is taken once day. A carefully marked dropper is included in the pediatric elixir for gauging the dosage. Your dosage would need to be adjusted because different brands of digoxin contain varied quantities of the active ingredient.
Digoxin aids in managing your disease but cannot reverse it.
Digoxin may also be administered following a heart attack to treat angina, which is a type of heart pain.
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Imagine a bacterial cell with a mutation that renders D N A Pol I completely nonfunctional (note that this would be a lethal mutation). What, precisely, would go wrong with replication in this cell?
a. inability to unwind double helix
b. inability to prime replication
c. inability to extend the length of leading and lagging strands
d. inability to replace primers
Cells are unable to replace primers.
The process by which a double-stranded DNA molecule is copied to produce two identical DNA molecules is known as replication. One of the most fundamental processes that occurs within a cell is DNA replication. Before cells can divide, their DNA must be replicated. This ensures that each daughter cell receives a copy of the genome, resulting in successful genetic trait inheritance. DNA replication is an essential process that is conserved across all organisms.
Primers are short stretches of DNA that target specific sequences and aid in the identification of a specific part of the genome, such as a gene. Primers are typically 18 to 25 nucleotides in length. They can be synthesized in a specialized lab and are used in a variety of applications.
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Dna replication proceeds outward from two , which are the sites where the template strands are unwound and new dna is synthesized.
Forks are the locations where the templates strands be unwound and fresh dna is created during replication.
How is something synthesized?Simply put, synthesizing is mixing. You combine the ideas and facts of various sources to make a larger statement rather than summarizing the key points of every source individually. This essentially entails comparing and contrasting the information from your sources.
What does writing synthesis mean?Synthesis is the process of combining different elements to create a whole. When instructing students to produce a research study or any work that calls for the utilization of numerous sources, writing instructors frequently use this term.
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What body structure/region normally encounters both inhaled air as well as ingested food and drink?.
Answer: the oropharynx.
Explanation:
which of the following describes the normal function of the p53 gene product?
a. It allows colls to pass on mutations due to DNA damage
b. It inhibits the cell cycle
c. It causes cells to reduce expression of genes involved in DNA repair
d. It slows down the rate of DNA replication by interfering with the binding of DNA polymerase.
b. It inhibits the cell cycle
p53 gene product inhibits the cell cycle for preventing replication of damaged DNA. Main function of p53 gene product are: growth arrest by inhibiting cell cycle, DNA repair and apoptosis (cell death). That means p53 gene product arrest the growth of cell cycle when there is any damaged DNA.
A regulatory protein called p53 that is often mutated in human malignancies is also known as tumor protein P53, cellular tumor antigen p53 (UniProt name), or transformation-related protein 53 (TRP53). The p53 proteins, which were once believed to be a single protein and are sometimes referred to as such, are essential in vertebrates because they inhibit the development of cancer. As a result of its function in preserving stability by guarding against genome mutation, p53 has been referred to as "the guardian of the genome." As a result, the gene TP53[note 1] is categorized as a tumor suppressor.
In 1979, the term "p53" was coined to describe the apparent molecular mass; SDS-PAGE examination reveals that the protein is 53 kilodalton (kDa) in size.
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please help me again i’m even more confused
Answer:
The impact of the codon changing to A has a missense mutation on the protein. The original amino acid was Histidine and mutated into Leucine.
Explanation:
*If you do not know how to use a codon chart you can ask me, just comment it.*
ok, let's first see what a missense mutation actually is.
missense mutation - A changed DNA sequence that changes a amino acid completely from the original amino acid.
The original strand you have to convert it, CTC is CAC that is how it originally is Histidine, the mutated DNA strand is CAC, but converted is CUC which is Leucine.
Hope that helped, if not, I can go in depth. :)
a body part that is formed of two or more tpyes of body tissue and performs one or more specific functions is called
Answer: it is called an organ.
Explanation: there are different types of organs in your body some are the skeletal organs and muscular organs and so many other organs. it can provide support for your body, creates limitless movement, controls blood movement and digestive system.
What happens when the xist gene from an x chromosome is inserted into an autosome?.
When the xist gene from an x chromosome is inserted into an autosome the autosome with Xist is inactivated like an X chromosome.
What does the Xist gene do?On the X chromosome of placental mammals, the non-coding RNA known as Xist (X-inactive specific transcript) plays a key role in the X-inactivation process. Along with two more RNA genes (Jpx and Ftx), two protein genes, and two other components, it is a part of the Xic, or X-chromosome inactivation centre (Tsx and Cnbp2).
The long, non-coding RNA Xist is essential for mammalian XCI (X-inactive specific transcript). It is generated from the Xist gene, which is located in the X inactivation centre (Xic), a region on the X chromosome that contains clustered genes and regulatory regions important in the X inactivation process.
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immediately after digestion, nutrients delivered from the intestines into the circulatory system are:
Answer:
transported through the blood to the liver for chemical alternations to make them better suited for use by the tissues.
Explanation:
Chromosome arm exchange during meiosis is precise- if exchange occurs within a gene no bases will be added or lost. How can this happen?.
The exchange within gene while no bases are added and lost will occur through recombination.
How this happen during recombination?Recombination happens when two DNA molecules swap genetic material with one another. Meiosis is one of the most prominent examples of recombination. This is also called as crossing over.
The homologous chromosomes of the cell line up very closely to one another when recombination takes place during meiosis (specifically in prophase I ). Then, in the same place on each chromosome, the DNA strand breaks, producing two free ends. A connection known as a chiasma is formed when either end crosses over onto the opposite chromosome. The crossing-over process finally comes to an end as prophase I ends and metaphase I starts, and then the homologous chromosomes get ready to split.
As a result of recombination, each chromosome carries fresh, distinct allele combinations.
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A certain type of bird lives in two regions of a state. The distribution of weight for birds of this type in the northern region is approximately normal with mean 10 ounces and standard deviation 3 ounces. The distribution of weight for birds of this type in the southern region is approximately normal with mean 16 ounces and standard deviation 2. 5 ounces.
The z-scores for a weight of 13 ounces for a bird living in northern region is equal to 1 and southern region is equal to -1.2 and the bird of this type with a weight greater than 13 ounces lives in the southern region.
Z-scores is defined as the numerical measurement of a set of values that establishes the relationship of the value with the mean of the set of values given. The formula for determining the z-scores is expressed as
z = x - μ/σ
where x is the raw value, μ is mean and σ is standard deviation.
For northern region, μ = 10 and σ = 3 and for southern region, μ = 16 and σ = 2.5
The z-score for northern region at x = 13 will be
z = 13 - 10/3
z = 3/3 = 1
The z-score for southern region at x = 13 will be
z = 13 - 16/2.5
z = -1.2
Now, we find the probability.
For the northern region, P(x > 13) = P(z > 1) = 1 - P(z < 1) = 1 - 0.8413 = 15.87%
For the southern region, P(x > 13) = P(z > -1.2) = 1 - P(z < -1.2) = 1 - 0.1314 = 86.86%
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Complete Question:
A certain type of bird lives in two regions of a state. The distribution of weight for birds of this type in the northern region is approximately normal with mean 10 ounces and standard deviation 3 ounces. The distribution of weight for birds of this type in the southern region is approximately normal with mean 16 ounces and standard deviation 2.5 ounces.(a) Calculate the z-scores for a weight of 13 ounces for a bird living in the northern region and for a weight of 13 ounces for a bird living in the southern region.(b) Is it more likely that a bird of this type with a weight greater than 13 ounces lives in the northern region or the southern region? Justify your answer.
a locus describes: select one: a. a location on a chromosome b. a type of protein c. a type of insect d. none of the above
A locus describes a location on a chromosome.
A locus is the physical site or location of a specific gene on a chromosome.
Locus is a location that tell us where on a chromosome a specific gene is. It is considered as physical location of a gene on a chromosome. It tells about gene and its neighborhood .Hence ,Humans are called diploid organisms because they have two alleles at each genetic locus, with one allele inherited from each parent.
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the process of fat digestion begins even before you take your first bite of food. just the smell of food can begin digestive juices flowing. the most common lipids found in foods are primarily in the form of triglycerides. these lipids are broken down during digestion to yield monoglycerides, glycerol, and free fatty acids. focus your attention on the steps involved in fat digestion illustrated in the focus figure. drag the labels onto the flowchart to indicate the correct sequential order involved in lipid digestion.
Even before you take your first mouthful of food, you are already in the lipid digestion process. Simply smelling food might start the digestion process. Triglycerides are the most prevalent kind of fat present in food.
What takes place first during the digestion of fat?Utilizing salivary enzymes, the body starts to break down fat in the mouth. Foods that have been chewed have more surface area, which helps the digestive enzymes do their job more quickly. Lingual lipase and phospholipids, which break down fats into tiny drops, are the two most significant molecules that aid in fat digestion in the mouth.
What occurs during the digestion of fat?In the stomach, fat is separated from other dietary components. In the small intestine, bile emulsifies fats. Then, enzymes degrade them. The intestinal cells take up the fats. Chylomicrons are substantial lipoprotein structures that transport fats through the lymphatic system. They are made of long-chain fatty acids.
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