In simple transposition __________.
Multiple Choice
A. a double stranded piece of DNA is moved from one site to another
B. a single strand is moved, leaving a single strand behind
C. a double stranded piece of DNA is copied, and the copy is moved to another site
D. a plasmid is incorporated into the cell's chromosome
E. viral DNA is incorporated into the cell's chromosome
Answers
In simple transposition B. a single strand is moved, leaving a single strand behind.
Simple transposition involves the movement of a single strand of DNA from one site to another. This is done by cutting the single strand at a specific site and then pasting it at a different site. This process leaves behind a single stranded piece of DNA, while the strand that was moved is now at a new location. This process can be used to move genetic information from one site to another, allowing for elements such as viral DNA to be incorporated into the cell's chromosome.
Transposition is a technique used in cryptography that involves rearranging the order of plaintext characters in order to create a ciphertext. This is done by swapping the positions of the letters or swapping the rows and columns of a matrix. Transposition is used to make it more difficult to decrypt a ciphertext without the encryption key.
Single strand is a term used to describe a single nucleic acid molecule of DNA or RNA. DNA exists as two strands, which are held together by hydrogen bonds between the nitrogenous bases, forming a double helix. RNA is typically found as a single strand molecule. Single strand molecules contain genetic information in the sequence of their nitrogenous bases, which can be used to create proteins and perform other cellular functions.
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Related Questions
In the sexually reproducing Donax variabilis, a coquina mollusk, a large differentiation in physical characteristics allows
them to successfully populate their environment. Which of the following images represents the chromosomal
organization during meiosis that will increase the population's potential survival rate the most?
Answers
Answer: c (3rd image down)
Explanation: :Two factors affect population potential survival rate, which are crossing over and independent assortment.
what is the chemical composition of earth's core?
Answers
Answer: metal—specifically, iron and nickel.
Explanation: Unlike the mineral-rich crust and mantle, the core is made almost entirely of metal—specifically, iron and nickel. The shorthand used for the core's iron-nickel alloys is simply the elements' chemical symbols—NiFe.
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These important terms help you to understand how chemistry relates to biology. Match the terms to their definitions.
Question 1 options:
This is the smallest unit of matter that still retains all of the properties of that type of matter
A substance that cannot be broken down into other substances by chemical reactions
These are the product when more than one atom is bonded to another atom
Substances with two or more elements in a fixed ratio
It is defined as anything that occupies space and has mass
1.
Matter
2.
Elements
3.
Atoms
4.
Molecules
5.
Compounds
Answers
Chemistry and biology are deeply connected, and understanding the fundamental concepts of chemistry is crucial to comprehending how biological systems work. Among the most important concepts are the terms matter and elements, atoms, molecules, and compounds.
Anything with mass and space is considered matter. The smallest unit of matter that still keeps all of that type of matter's features is an atom, which is the smallest substance that cannot be converted into another substance by chemical reactions. When two or more atoms are bound together, molecules are created, whereas compounds are made up of two or more elements in a certain proportion. In summary, the terms matter, elements, atoms, molecules, and compounds are essential in understanding the relationship between chemistry and biology. These concepts lay the foundation for more advanced concepts and theories that explain how the fundamental building blocks of matter interact to create biological systems.
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What does the receptor protein do?
stops things from entering into cell
helps cell self destruct when necessary
Receives chemical signals from the brain.
helps the flow of blood
Answers
Answer:
the answer is Receives chemical signals from the brain.
Explanation:
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A form of mitotic cell division that serves as a means of reproduction in amebas and various
other protists is
Answers
Answer:
The Cell Cycle | Back to Top
Despite differences between prokaryotes and eukaryotes, there are several common features in their cell division processes. Replication of the DNA must occur. Segregation of the "original" and its "replica" follow. Cytokinesis ends the cell division process. Whether the cell was eukaryotic or prokaryotic, these basic events must occur.
Cytokinesis is the process where one cell splits off from its sister cell. It usually occurs after cell division. The Cell Cycle is the sequence of growth, DNA replication, growth and cell division that all cells go through. Beginning after cytokinesis, the daughter cells are quite small and low on ATP. They acquire ATP and increase in size during the G1 phase of Interphase. Most cells are observed in Interphase, the longest part of the cell cycle. After acquiring sufficient size and ATP, the cells then undergo DNA Synthesis (replication of the original DNA molecules, making identical copies, one "new molecule" eventually destined for each new cell) which occurs during the S phase. Since the formation of new DNA is an energy draining process, the cell undergoes a second growth and energy acquisition stage, the G2 phase. The energy acquired during G2 is used in cell division (in this case mitosis).
Explanation:
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DNA has an important role in making proteins, the bio molecules that help determine our traits as well as take part in chemical reactions throughout our bodies. Can you correctly label the step/parts involved in protein synthesis?
Answers
DNA hold the knowledge that establishes a person's unique physical and biological characteristics, such as blood type, eye color, and hair color. The majority of genes make specific proteins that serve various purposes throughout the body and enable life, growth, and reproduction in humans. Sections of DNA are used to make genes.
What is DNA:
DNA, commonly referred to as deoxyribonucleic acid, is the genetic material carried by humans & nearly all other organisms. Nearly all of an individual's cells have their DNA. The information molecule is DNA. It provides the knowledge required to produce proteins, another type of substantial molecule. Each of your cells contains 46 substantial structures called chromosomes that are distributed throughout these instructions.
These chromosomes are made up of numerous smaller segments of DNA, called genes.
A small DNA segment called a gene. Your genes carry instructions that direct your cells to produce proteins in your body. Your body uses proteins for a variety of purposes to maintain your health. Each gene carries commands that control your traits, including your height, eye color, and hair color.
Cells make proteins through a process called protein synthesis. Transcription and translation take place simultaneously. Transcription is the process through which genetic information is transformed from DNA to mRNA in the nucleus. Initiation, elongation, and ending are its three stages.
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General PsychologyTopic 1 – Introduction to Psychology and Role of BiologyMini Brain ProjectDirections: Conduct research on a selected brain area or structure. Areas and structures available for research include: frontal lobe, parietal lobe, temporal lobe, occipital lobe, medulla, pons, cerebellum, reticular formation, thalamus, hypothalamus, limbic system, cerebrum, hippocampus, amygdala, corpus callosum, Broca’s area, OR Wernicke’s area. Conduct research using scholarly Internet sources, library sources, and the textbook. What happens when it is damaged?
Answers
Our brain is who we are. It is the one thing that makes us unique.
When damage occurs to the brain, changes consequently occur to the person. These changes vary considerably and may include alterations to the person’s speech, mobility, memory and even personality. The symptoms displayed as a result of brain injury are dependent on where the brain was damaged and the extent of the damage
5.08 energy consumption lab worksheet
Answers
The five adjustments we made to the Rube Goldberg device in order to keep the flow of energy going include:
Changing the anglePutting the rubber band firmly to the white ballChanging the position of the weightAttaching the 5lbs to the rope on the third platform found in close proximity to the green tube so it can enter into the see saw device.What is the Rube Goldberg device?The Rube Goldberg machine, named after American cartoonist Rube Goldberg, is described as a chain reaction–type machine or contraption intentionally designed to perform a simple task in an indirect and overly complicated way.
The device function by using a set of tasks that work in succession and trigger one event after another until the final event.
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#complete question:
01.05 energy lab worksheet
Describe the five adjustments you made to the Rube Goldberg device in order to keep the flow of energy going.
What term can be used to describe all cellular respiration?
Tick one box.
А
Aerobic
B
Endothermic
С
Anaerobic
D
Exothermic
Answers
The term that can be used to describe all cellular respiration is Exothermic. Some cellular respiration may be aerobic, some are anaerobic but all the exothermic.
What do you mean by Cellular respiration?Cellular respiration may be defined as the methodology of transforming glucose into a form of energy (ATP) that is useable by cells.
Respiration that occurs in the presence of oxygen is known as aerobic cellular respiration, respiration that occurs in the absence of oxygen is known as anaerobic respiration.
Therefore, the term that can be used to describe all cellular respiration is Exothermic.
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4. Which one of the following leads to the destruction of the ozone layer?
A. release of carbon dioxide from the burning of fossil fuels
B. the release of CFC's found in refrigerants and aerosols
C. the production of acid rain
D. deforestation and habitat loss.
Answers
Answer:
Think it is B
Explanation:
Choose 1 Transport Mechanism in a cell and make a relatable analogy based on your experience recently. Explain .
Answers
Answer:
Active transport across membranes is like refilling an empty soda can after pouring the soda into a cup. It takes effort (energy in the form of ATP) to pour the soda back into the can, it wouldn't typically happen on its own.
Explanation:
Cells use several transport mechanisms to move substances across their plasma membranes. Plasma membranes control all movement of substances through passive transport, which does not use energy; and active transport which requires chemical energy in the form of ATP.
Active transport moves substances out of cells against their gradients. In the cell, glucose can be transported inwards for respiration. However, because the internal environment is typically concentrated, (and glucose is needed in high amounts) this requires the use of transport enzymes and ATP.
The question above is intended to assess your ability to relate cell transport types to your personal experience. For that reason, I can't answer this question for you, but I'll help you answer it.
As you may already know, cell membranes limit the transport of substances into and out of the cell. This makes the cell create a mechanism that allows it to absorb and expel substances. These mechanisms are the cell transport mechanism.
Below you will find a definition of cell transport:
Simple diffusion: Allows molecules to be transported into or out of the cell. In this process, they leave the place where they are in greater concentration to a place with less concentration. An example of this can be seen in an elevator that is full of people, reaching the point where some people need to get out of the elevator and stay outside, where there is no one.Osmosis: Allows the transport of water into or out of the cell. In this case, the water leaves where it has a lower concentration of salts and goes to where it has a higher concentration of salts. An example of this can be seen when you need to add milk to dilute your powdered chocolate.Facilitated diffusion: This also allows the transport of substances into or out of the cell. These substances leave the place where they are in greater concentration to the place of lesser concentration, but leave with the help of specific proteins. An example of this can be seen when the postman takes your package from the post office and takes it to your house.Active transport: Occurs in the same way as facilitated diffusion, but it is the only type of cell transport that allows the cell to spend energy. An example of this occurs when you have to leave the house and go to the post office to pick up your package.More information:
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What makes transmembrane proteins unique to non transmembrane proteins. i.e. what makes them become embedded in the er membrane while others don't?
Answers
Many transmembrane proteins feature as gateways to allow the transport of precise materials throughout the membrane. They frequently undergo large conformational adjustments to transport a substance thru the membrane. they may be commonly exceedingly hydrophobic and combine and precipitate in water.
Transmembrane and peripheral proteins are forms of membrane proteins present inside the cell membrane. Transmembrane proteins form channels and pores to move molecules across the membranes. in the meantime, the peripheral proteins on the extracellular surface are responsible for cellular-cell signaling and interactions.
Transmembrane proteins that amplify via the bilayer w/ part of their mass on either facet are amphipathic. -hydrophobic components (facet chains) interact with hydrophobic tails of lipids. -hydrophilic components are uncovered on both facets of the membrane.
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21. What determines the kind of genes an organism
possesses?
Answers
Answer:
The kind of genes an organism possesses is determined by the order of the nucleotide bases in the organism's DNA.
Answer:
The kind of genes an organism possesses is determined by the order of the nucleotide bases in the organism's DNA. ... The order of bases as you go down the rungs of the ladder determine what genes an organism will have, and therefore, what traits it will have.
Explanation:
Fun facts:
Genes carry the information that determines your traits which are features or characteristics that are passed on to you — or inherited — from your parents. Each cell in the human body contains about 25,000 to 35,000 genes. ... And chromosomes are found inside cells. Your body is made of billions of cells.
How does the structure of the muscle cell relate
the function?
Answers
Answer:
Skeletal muscle cells are arranged in bundles of linear fibers. ... These are thin strands made of the proteins actin and myosin that perform muscle contraction. The elongated shape of muscle cells allows the contraction proteins to line up in an overlapping pattern that makes muscle flexing possible.
Explanation:
Which feature of model 1 best illustrates how biological information is coded in a DNA molecule?
The 5′ and 3′ labels at the ends of each strand
The 5′ and 3′ labels at the ends of each strand
A
The labeling of the hydrogen bonds between base pairs
The labeling of the hydrogen bonds between base pairs
B
The lines connecting sugars and phosphate groups that represent covalent bonds
The lines connecting sugars and phosphate groups that represent covalent bonds
C
The linear sequence of the base pairs
Answers
Answer:
The correct answer is - option C. The linear sequence of the base pairs .
Explanation:
The double helix structure is presented in the model which exhibits the two major and important characteristic of the DNA molecule. The first major property of the double helix model shows that each strand of the molecule acts as a template for the creation of the complimentary strand.
The second major property is that the genetic information can be be store in the linear sequence of the nucleotide or the base pair along with the backbone of the molecule.
Thus, the correct answer is - option C. The linear sequence of the base pairs .
How many kingdoms are represented by the organisms?
a bird
a tree
a lion?
Answers
All of the following are examples of regulating services except
Answers
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(i) What is fertilisation? Distinguish between external fertilisation and internal fertilisation. (ii) What is the site of fertilisation in human beings?
Answers
What Is Internal Fertilization? Syngamy of gametes occurs inside the female body after insemination through copulationObserved in birds, mammals, birds occurring in terrestrial plants and animals, also in some of the aquatic entities. This is observed in three ways – ovoviviparity (eggs retained in the female body, hatched when fully developed, oviparity(egg-laying), viviparity(offsprings develop within the female body) Observes in plants such as bryophytes, pteridophytesWhat Is External Fertilization?Syngamy of gametes outside the female body/outer environment, notably in water bodiesObserved in few vertebrates, sea urchins, fish, aquatic invertebrates, almost all amphibiansDeposition of sperms and eggs by males and females in open surroundings is known as spawningBroadcast fertilization – used when sperms swim through the water uniting with eggs to fertilizeii) In humans, the process of fertilization takes place in the fallopian tube. During this process, semen comprising thousands of sperms are inseminated into the female vagina during coitus. The sperms move towards the uterus and reach the opening of the fallopian tube.✯ Hope this helps ✯
Explanation:
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One treatment for lactose intolerance is to take a lactase pill. Like any enzyme, lactase must maintain the proper three-dimensional shape to function. Given this information, what must be true about the structural integrity of ingested lactase?
Answers
Answer:
lactase are not for human consumption only for lower level animal
Explanation:
1. Angelman syndrome and Prader-Willi syndrome are used as examples of epigenetic inheritance.
a. Explain the symptoms and effects of each of these diseases.
Answers
Angelman syndrome is characterized by intellectual disability, severe speech impairment, ataxia, seizures, and a happy demeanor. Prader-Willi syndrome involves hypotonia, hyperphagia, obesity, intellectual disability, behavioral problems, and short stature.
Angelman syndrome and Prader-Willi syndrome are two distinct genetic disorders that are often discussed in the context of epigenetic inheritance. Both conditions result from abnormalities in a specific region of chromosome 15, but they have opposite effects due to differential genetic imprinting.
Angelman syndrome is characterized by developmental delays, severe intellectual disabilities, speech impairments, and motor coordination problems.
Individuals with Angelman syndrome often exhibit a happy and excitable demeanor, with frequent episodes of laughter and a fascination with water. They may also experience sleep disturbances, seizures, and a lack of speech development.
On the other hand, Prader-Willi syndrome manifests with distinct symptoms such as hypotonia (poor muscle tone) during infancy, hyperphagia (insatiable appetite) leading to obesity, developmental delays, learning difficulties, and behavioral challenges.
Individuals with Prader-Willi syndrome often have a compulsive need for food and struggle with weight management. They may also experience hormonal imbalances, growth hormone deficiency, and behavioral issues such as temper tantrums and obsessive-compulsive behaviors.
Epigenetic inheritance refers to the transmission of information from one generation to another that affects gene expression without altering the underlying DNA sequence.
In the case of Angelman and Prader-Willi syndromes, these conditions result from epigenetic changes, specifically imprinting, in the chromosomal region involved. Imprinting refers to the process by which certain genes are marked or silenced based on their parental origin.
In Angelman syndrome, the paternal copy of the UBE3A gene is deleted or silenced, leading to a lack of functional UBE3A protein in the brain. In Prader-Willi syndrome, the maternal copy of the same gene is affected. These imprinted genes play critical roles in brain development and function, leading to the distinct symptoms observed in each disorder.
It is important to note that while both Angelman and Prader-Willi syndromes are considered examples of epigenetic inheritance, the underlying mechanisms and specific epigenetic changes involved are complex and continue to be studied.
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A zebra and a donkey can successfully mate to produce offspring known as a zonkey. Zonkeys are infertile, display a mixture of donkey and zebra traits, and have a different number of chromosomes from both parent species. Would zonkeys be classified as their own species? Explain with at least one full sentence.
Answers
Zonkeys are the offspring produced from a cross between a zebra and a donkey. These are classified as a separate species as it shows characteristic
What are Zonkeys?A zonkey is a offspring produced from the cross between a zebra and a donkey. Donkeys are closely related to zebras and both of these animals belong to the horse family.
Zonkeys are the used as beasts of burden (work animals) because of their great strength and stamina to hold heavy weights. It is also believed that they inherit resistance to some pests and diseases as well from their zebra fathers. Some zoos also use them to offer rides to the public.
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Proteins are compounds formed in the cells of plants and animals. Which element is included in very protein molecule?
a. Calcium
b. Carbon
c. Fluorine
d. Sodium
Answers
Carbon is an essential element and a protein consists of an amino group and a carboxyl group!!!
14. A researcher studying a group of individuals of the same species living and interacting in a
shared environment is said to be working at the level of a
a. biome
b. biosphere
C. community
d. population
Answers
Answer:population
Explanation: if it were more than one species it would be community
You and your friends are planning a hiking / camping trip to Denali National Park,
Alaska. Below is a topographic map that shows the mountain range in the park. The
wind usually blows in the direction the arrows are pointing. If you want to stay as dry
as possible (no precipitation), which site would be the better choice to set up camp?
Answers
Answer: Site B
Explanation: I took the test。
What did the GBR water do to the concentration of ATP?
Answers
Answer:
decreased
Explanation:
How might you model the relationship between a tomato plant and the hornworm catepillar?
Answers
The relationship between the tomato plant and hornworm caterpillar is of parasitism.
Parasitism is the mode of nutrition where an organism lives in close association with another organism. One organism is benefitted from this association and is called the parasite. And the person who gets harmed in this is called the host. The parasite may live on the outer surface of the host or even inside the body.
Hornworm caterpillar belongs to the family Sphingidae. The caterpillar has a horn-like tail and hence the name. The caterpillar specially lives on the tomato plant and feeds on its leaves. It can eat the leaves to such an extent that the plant may become completely defoliated. Hence they have a parasitic relation.
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Use Boyle's law to determine the size of an average human lung at 1000 ft deep. The average human adult lung is 6000 ml at sea level (1 atm). Please show work
Answers
The volume of the lung at 100p feet deep, i.e at 30-atmosphere pressure will be 200 ml.
What is Boyle's law?It is a relation between volume and pressure. It states that the pressure applied will be inversely proportional to the volume.
According to Boyles law,
P₁V₁ = P₂V₂
This means that the product of initial pressure and initial volume will be equal to the product of final pressure and final volume.
Therefore, if the lung is at 1000 ft, it will have 30 atm pressure.
Now, P₁V₁ = P₂V₂
According to the question,
P₁ = 1 atm
V₁ = 6000 ml
P₂ = 30 atm
Now, \(V_{2 = \frac{6000 * 1}{30}\) = 200 ml
Therefore, the volume of a lung at 1000 ft will be 200 ml.
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How is a society likely to address the problem of overuse of wildlife
resources?
A. By developing irrigation techniques that conserve water
B. By cutting down forests to produce more pastureland
C. By creating laws or traditions that regulate hunting and fishing
D. By switching from coal-burning power plants to solar energy
production
Answers
Answer:
C. By creating laws or traditions that regulate hunting and fishing
Explanation:
Wildlife resources refer to wild animals (terrestrial, aquatic etc) in their natural habitat. Wildlife is an integral part of our society, however, they are being overexploited by human activities.
According to the options in the question, one way to address the problem of over use of wildlife resources is by creating laws or traditions that regulate hunting and fishing. Laws that compel hunting and fishing, which are the means humans over use wildlife, will help bring the rate at which these resources are used.
For example, creating a law that prohibits hunting in certain areas will help preserve wildlife in that area because it is a punishable offence by the law to hunt. Hence, wildlife resources will be preserved.
Answer:
. By creating laws or traditions that regulate hunting and fishing
Explanation:
Which of the following events increase the stability of an ecosystem? 1. primary succession II. secondary succession III. deforestation IV. chemical spill OA. I only OB. I, III, and IV only OC. I and II only OD. ll only Reset Submit
Answers
Answer:
I. primary succession
II. secondary succession
Explanation:
Primary and secondary succession are similar because they both increase the stability of communities over time. A stable community is more resistant to pathogens, dramatic fluctuations in species populations, and erosion.
Why do male mammals risk having the testicals outside the main body?
Answers
Reason - the temperature of the testicles needs to be cooler than the inside of the body to produce sperm. This is why the testicles are located outside of the body.