Answer:
D. The frequency of the Ellis-van Creveld allele is 0.0447 in the isolated population and 0.0026 in the general population, which suggests that genetic drift has occurred in the isolated population.
Explanation:
If we assume that one gene is involved in Ellis-van Creveld syndrome and we name that gene with A, then the genotype of the syndrome would be aa.
In population 1, the frequency of the syndrome is 1/150000=0.0000066(it is the frequency of the aa gentotype)
In population 2, the frequency of the syndrome is 1/500=0.002
According to Hardy-Weinberg equilibrium
p2+2pq+q2=1 (p2 is the frequency of the dominant homozygous, 2pq is the frequency of heterozygous and q2 is the frequency of the recessive homozygous).
q or the frequency of the Ellis-van Creveld allele in Population 1 is [tex]\sqrt{0.0000066}[/tex] =0.0026
q or the frequency of the Ellis-van Creveld allele in Population 2 is [tex]\sqrt{0.002}[/tex] = 0.0447
The study of genes is called genetics. According to Charles Darwin, the gradual changes in the species over the period of time are called evolution.
The correct answer to the question is option D that is The frequency of the Ellis-van Creveld allele is 0.0447 in the isolated population and 0.0026 in the general population, which suggests that genetic drift has occurred in the isolated population.
What is the hardy Weinberg rule?In population genetics, the Hardy–Weinberg principle, also known as the Hardy–Weinberg equilibrium, model, theorem, or law, states that allele and genotype frequencies in a population will remain constant from generation to generation in the absence of other evolutionary influences.In population 1, the frequency of the syndrome is 1/150000=0.0000066(it is the frequency of the aa genotype)In population 2, the frequency of the syndrome is 1/500=0.002According to Hardy-Weinberg equilibrium
[tex]p^2+2pq+q^2=1 [/tex] where
[tex]p^2[/tex] is the frequency of the dominant.2pq is the frequency of heterozygous.[tex]q^2[/tex] is the frequency of the recessive.q or the frequency of the Ellis-van Creveld allele in Population 1 is =0.0026.
q or the frequency of the Ellis-van Creveld allele in Population 2 is
=0.0447
Hence, the correct answer is described above.
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The small space between the sending neuron and the receiving neuron is the
Answer: Synaptic Cleft
The small space between the sending and receiving neuron is called the synaptic cleft. It is a key component of a chemical synapse where neurotransmitters diffuse across, enabling communication between neurons or a neuron and its target cell.
Explanation:The small space between the sending neuron (presynaptic neuron) and the receiving neuron (postsynaptic neuron) is referred to as the synaptic cleft. This is a tiny gap where the neurotransmitter, which carries information, diffuses across from the sending neuron to the receiving one. The synaptic cleft is a crucial part of a chemical synapse, facilitating rapid neurotransmitter diffusion for communication between neurons or a neuron and its target cell. Enzymes within the synaptic cleft can degrade certain types of neurotransmitters, thus terminating the signal transmission. This system supports the dynamic nature of neuronal communication.
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Which of the following statements regarding restriction enzymes is NOT true? See Section 15.1 (Page 554) . Which of the following statements regarding restriction enzymes is NOT true? See Section 15.1 (Page 554) . Most restriction enzymes recognize sequences of 20-25 bp in length. Bacteria can add methyl groups to their DNA to prevent digestion by endogenous restriction enzymes. Most restriction enzymes recognize palindromic sequences in host DNA. Restriction enzymes may produce either sticky or blunt ends when digesting host DNA.
Answer:
Most restriction enzymes recognize sequences of 20-25 bp in length
Explanation:
Sequences of DNA that are recognized by restriction enzymes are called recognition (or restriction) sites are usually are between 4 and 8 bases long. Many of them are palindromic, which means that they are the same when you read it backwards and forwards (mirror-like).
Restriction enzymes are endonucleases, which means they cut phosphodiiester bonds within DNA. These enzymes are from prokaryotic organisms (archea and bacteria) which use them as defending mechanism against viruses. Prokaryotes protect their own DNA via methylation, performed by methyltransferase.
The incorrect statement about restriction enzymes is that most recognize sequences of 20-25 bp in length; they commonly recognize sequences of 4-8 bp.
Explanation:The statement regarding restriction enzymes that is NOT true is "Most restriction enzymes recognize sequences of 20-25 bp in length." In fact, most restriction enzymes recognize and bind to specific palindromic sequences of DNA that are significantly shorter, typically ranging from 4 to 8 base pairs in length. These enzymes can generate either sticky ends or blunt ends when they cut DNA, depending on the specific enzyme and its recognition sequence. Additionally, bacteria can protect their own DNA from these enzymes through the addition of methyl groups to the recognition sequences, a process known as methylation, thus preventing the restriction enzyme from cutting the bacterial DNA.
Is the current generation more wasteful than our ancestors?
Answer:
Yes, Because there are lots of Trash on the ocean than the past, People From the past are alot more less wasteful as of now soooo yeah.
Explanation:
The current generation is more wasteful than our ancestors because, in the current generation, there is more useful for those items which pollute the environment.
What is waste?Waste materials are those items that pollute the natural environment. These are non-natural products. They are made up of chemicals and other synthetic products.
These products are plastic and other chemicals. Before times, there was less use of plastic and other chemicals. So, the ancestors did not pollute the environment.
The current generation will be producing more waste because there is more use of plastic and another chemical.
Thus, the reason the current generation is more wasteful than our forefathers is that there are more uses for products that harm the environment.
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Compare and contrast DNA to RNA
Answer:
DNA has thymine; RNA has uracil
DNA is a double helix; RNA is single stranded
DNA cannot leave the nucleus; RNA can
DNA has deoxyribose; RNA has ribose
That's easy! Each sugar unit in DNA and RNA bind to form one of four nucleotide bases. Both the DNA and the RNA use the bases A,C and GB. While DNA uses T, RNA uses U. The sequence of bases along the strands of DNA and RNA is the genetic code that tells the cell how to make proteins. In DNA, the bases of each strand bind to the bases on the other strand, forming the double-helix structure. In DNA, A’s can only bind to T’s and C’s can only bind to G’s. The structure of a DNA helix is preserved in a protein-RNA cocoon called a chromosome.
Cystic fibrosis is an autosomal recessive disorder that runs in ann's family. she has created a pedigree of the known occurrences of cystic fibrosis in her family. which individuals are symptomless carriers? choose all correct answers.
Cystic fibrosis is caused by changes in genes that function to regulate the distribution of salt in the human body. Changes or genetic mutations will make the levels of salt in sweat increase. This condition affects the mucus in the respiratory tract, digestion, and the reproductive system becomes thick and sticky.
Further explanationCystic fibrosis is a hereditary disease that causes mucus in the body to become thick and sticky. Cystic fibrosis is not a contagious disease, but rather the sufferer is more susceptible to contracting the infection if it is near or in contact with people with infectious diseases.
Under normal circumstances, mucus which acts as a lubricant in the body is liquid and slippery. In patients with cystic fibrosis, there are abnormalities in genes that regulate the flow of fluid and salt in cells.
This gene abnormality causes mucus to become sticky and inhibits a number of channels in the body. The respiratory tract is one of them.
Gene mutations in patients with cystic fibrosis are inherited from both parents. If a child receives this gene mutation only from one of his parents, then he only becomes a carrier for cystic fibrosis. A carrier does not suffer from cystic fibrosis, but can reduce this disorder to the offspring.
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Details
Class : high school
Subject : biology
Keywords : Cystic fibrosis, ganes, abnormality, body
IPS
A carrier is a person who carries one copy of the gene that is not working. Carriers of Cystic fibrosis do not exhibit symptoms but can transmit the defective gene to their offspring. To have Cystic fibrosis, a person must inherit two nonfunctional Cystic fibrosis genes, one from each parent.
What is Cystic fibrosis ?
An inherited condition known as cystic fibrosis is characterized by the formation of thick, sticky mucus that has the potential to harm numerous organs.The most common signs and symptoms of the disorder are problems with the digestive system over time and progressive damage to the respiratory system.The symptoms and severity of the disorder vary from person to person.The linings of the digestive and reproductive systems, the airways, and other organs and tissues are lubricated and protected by mucus, which is a slippery substance.Mucus production in people with cystic fibrosis is abnormally thick and sticky.It is possible for this abnormal mucus to clog the airways, resulting in severe breathing issues and bacterial infections in the lungs.Chronic coughing, wheezing, and inflammation are the effects of these infections.The accumulation of mucus and infections over time cause long-term damage to the lungs, including the development of scar tissue (fibrosis) and lung cysts.The majority of people with cystic fibrosis also experience digestive issues.Meconium ileus is a blockage of the intestine that occurs shortly after birth in some affected infants.A buildup of thick, sticky mucus in the pancreas can cause other digestive issues.An organ that produces insulin (a hormone that helps regulate blood sugar levels) is the pancreas.It also produces enzymes that aid in food digestion.Mucus frequently damages the pancreas in people with cystic fibrosis, reducing its capacity to produce insulin and digestive enzymes.Diarrhea, malnutrition, stunted growth, and weight loss are all possible outcomes of digestive issues.A type of diabetes known as cystic fibrosis-related diabetes mellitus can be brought on by a lack of insulin during adolescence or adulthood.To know more about cystic fibrosis check this :
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What are the characteristics of life start each of the sentences below with living things and fill in the blank with the correct term
Answer:
cellular organization, reproduction, metabolism, homeostasis, heredity, response to stimuli, growth and development, and adaptation through evolution
Explanation:
Covalent bond means that the atoms involved will _____. exchange valence electrons gain valence electrons share valence electrons lose valence electrons
Answer:
Share valence electrons
Explanation:
Covalent bonds are also known as molecular bonds. This is the type of bond that occurs between non-metals and non-metals. This type of bond can happen between two of the same elements or with other elements that are usually positioned near each other in the periodic table.
This is different from ionic bonds where atoms are lost or gained. This type of bonds occur between metals and non-metals.
The mating of two curly-haired brown guinea pigs results in some offspring with brown curly hair, some with brown straight hair, some with white curly hair, and even some with white straight hair. this mating illustrates which of mendel's laws?
Answer: Law of Independent Assortment
Explanation:
The example only shows that the alleles the offspring received for one gene does not influence the allele for another gene, since the curly/ strait haired gene clearly does not affect the white/ brown hair gene.
The mating of two curly-haired brown guinea pigs resulting in offspring with different variations in hair color and type illustrates Mendel's Law of Independent Assortment.
Explanation:The mating of two curly-haired brown guinea pigs resulting in offspring with different variations in hair color and type illustrates Mendel's Law of Independent Assortment.
This law states that genes do not influence each other with regard to the sorting of alleles into gametes, and every possible combination of alleles for every gene is equally likely to occur.
For example, in the case of the guinea pigs, the gene for hair color and the gene for hair type are inherited independently of each other, resulting in the various combinations of brown and white hair colors and curly and straight hair types in the offspring.
Define. Diffusion. Endocytosis. Exocytosis. Phagocytosis. Osmotic pressure.
Diffusion is the movement of the molecule (in gaseous form) from a region of high concentration to a region of low concentration until equilibrium is achieved. The movement of these molecules is always down the gradient and the movement of the molecules is stochastic
Endocytosis is the uptake of large molecule, that can't pass through the pores of the cell membrane, by a cell. It involves the invagination of the cell membrane engulfing the materials and budding off into a vesicle. The materials are therefore internalized and are transported into the cell.
Exocytosis is the reverse of endocytosis. The material comes from inside of the cell and carried in a vesicle. The vesicle binds with the cell membrane and the part in contact with the cell membrane diffuses off. The contents of the vesicle are therefore emptied outside of the cell.
Phagocytosis is the ingestion of an organism such as bacteria by another cell such as a phagocytic immune cell or amoeba. The process of phagocytosis is similar to that of endocytosis. However, this process is aided by cell membrane receptors on the surface of the phagocyte that recognizes and binds the epitopes of the bacteria.
Osmotic pressure is the bare minimum pressure required to be exerted to prevent the movement of water, by osmosis, from a low concentrated solution to a higher concentrated solution through a semipermeable membrane.
What is one observable adaptation of the redbud tree that makes it a member of the legume family?
Answer: I think one observable adaptation of the redbud tree that makes it a member of the legume family is the shape of the fruit.
Explanation: Different species might look dissimilar but the unity among organisms becomes apparent from an analysis of internal structures, the similarity of their chemical processes, and the evidence of common ancestry
Final answer:
The redbud tree exhibits an adaptation for symbiosis with nitrogen-fixing bacteria, forming nodules on its roots for nitrogen fixation, a characteristic trait of the legume family.
Explanation:
One observable adaptation of the redbud tree that identifies it as a member of the legume family is its ability to form symbiotic relationships with nitrogen-fixing bacteria. These bacteria, specifically from the genus Rhizobium, form nodules on the roots of legume plants such as the redbud tree. Inside these nodules, the bacteria convert atmospheric nitrogen into a form that the plant can use, a critical process called nitrogen fixation. This mutualistic interaction is vital for legumes, allowing them to grow in nitrogen-poor soils, and is a distinctive feature of this family.
Sarah is documenting her sources. Which step of research process is she on? A. Step 5: Cite Your Sources B. Step 4: Organize Your Information C. Step 2: Find and Retrieve Materials D. Step 3: Evaluate Your Sources
Answer:
Either A or B
Explanation:
Answer: A. Step 5: Cite Your Sources
Explanation:
A citation is a documentation and recognition of the research work and references used for the purpose of present research. Apart from research work other original sources such as idea, images and information can be used for the purpose of reference. In the body of a paper,small acknowledgments of the source of information used is required to be mentioned. In the end of the research article or thesis the entire list is framed for the references of the authors or other researchers.
Why is Catalase important to the body?
Answer:
Catalase behaves as a catalyst for the conversion of hydrogen peroxide into water and oxygen.
Explanation:
Catalase is an antioxidant enzyme that plays a very important role in the protection against oxidative damage by breaking down hydrogen peroxide. It is a very highly conserved enzyme that has been identified from numerous species including bacteria, fungi, plants and animals.
Catalase has one of the highest turnover numbers for all known enzymes (40,000,000 molecules/second). This high rate shows an importance for the enzymes capability for detoxifying hydrogen peroxide and preventing the formation of carbon dioxide bubbles in the blood.
Why are a variety monomers needed to produce the complex molecules necessary for life
Answer:
the statement that best explains why a variety of monomers are needed to produce the complex molecules necessary for life is that Different monomers contain different kinds of atoms needed to produce different end products.
Monomers are small organic molecules that join together via dehydration synthesis reactions to form larger biological molecules known as polymers. Different types of monomers can combine in various ways, creating a diverse group of macromolecules. Three major classes of biological macromolecules - complex carbohydrates, nucleic acids, and proteins - are composed of monomers that link together through dehydration synthesis reactions.
Many songbirds breed in North America in the spring and summer and then migrate to Central and South America in the fall. They spend the winter in these warmer areas, where they feed and prepare for the spring migration north and another breeding season. Two hypothetical species of sparrow, A and B, overwinter together in mixed flocks in Costa Rica. In spring, species A goes to the east coast of North America, and species B goes to the west coast. What can you say about the isolating mechanisms of these two species?
A. One of the species is probably polyploid, so they are reproductively isolated by genetic incompatibility.
B.Reinforcement must be occurring when they winter together.
C.The two species do not breed in the same area, so they are reproductively isolated by allopatry.
D.They must have strong prezygotic or postzygotic isolating mechanisms in order to spend winter in such close proximity.
Answer:
C.The two species do not breed in the same area, so they are reproductively isolated by allopatry.
Explanation:
Allopatry means that these two species are geographically separated during the breeding season, so they are reproductively isolated.
Allopatric speciation is a form of speciation (creation of new species) that occurs as a result of geographic isolation. This means that a part of population becomes physically separated from the initial main population. There is no gene flow between these two populations and as a result the two populations reach a high level of genetic divergence. They can no longer interbreed which means they become two different species (speciation).
enzymes that move certain phospholipids between leaflets have also which of the following properties?
A. play a role establishing and maintaining membrane lipid asymmetry
B. Transport proteins
C.Blocks post-synaptic membrane
D.Interacts with neighboring epithelial cells, or basal membrane
E. All of these are correct.
Answer:
A. play a role establishing and maintaining membrane lipid asymmetry
Explanation:
Proteins that move move certain phospholipids between leaflets are transmembrane proteins via "flip-flop" transition have also the possibility to maintain membrane lipid asymmetry. There are few types of such proteins:
flipases-move lipids from the exterior to the interior side of the membrane, energy requiredflopases-move lipids in reverse comparing to flipases, energy requiredscramblases-no energy required, bidirectionalBecause of the action of those proteins, cytosolic side of plasma membrane differs from exoplasmic side (asymmetry).
Name the subdivisions of the small intestine in a proximal to distal direction. do the same for the subdivisions of the large intestine.
The duodenum can therefore be subdivided into four segments: the superior, descending, horizontal, and ascending duodenum. ... The three regions of the small intestine are the duodenum, jejunum, and ileum. The jejunum is about 0.9 meters (3 feet) long (in life) and runs from the duodenum to the ileum.
The small and large intestine is the major part of the digestive system that helps in the process of digestion, assimilation of nutrition and passing of the waste through the large intestine.
1. The coiled small intestine is subdivided into three sections. From proximal to distal they are:
DuodenumJejunumIleumThe duodenum helps in the biochemical process of food and a little in absorption.Jejunum and ileum cleave the food enzymatically and absorption of nutrients along with water and vitamins takes place here.2. The subdivisions of the large intestine from proximal to distal direction is:
CecumColonRectumAnusThe large intestine is a tube-like organ connected to the small intestine and opens at the anus.In the large intestine the water, salts are absorbed from the undigested food.To learn more about the small and large intestine refer to the link:
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The branch of biology dealing with interactions among organisms
All of the following are part of a plants organizational structure except:
A. atoms
B. organs
C. tissues
D. systems
E. cells
Explanation:
a because plants dont have atoms they have mulculs
All of the following are part of a plants organizational structure except atoms. So, the correct option is (A).
What are Plants structure?Plant cells are defined as complex structures which contain several organelles lacking in animal cells which are cell wall, central vacuole and plastids i.e. chloroplast. There are three main tissue types called epidermal, ground and vascular tissue. Each tissue type contains specialized cells which have unique functions.
Plants have two organ systems:
1. The root system
2 .The shoot system
The root system is below ground consisting of roots which are specialized in the absorption of water and nutrients. The shoot system consists of stems and leaves present above the ground. Stems function to support the plant and transport materials (conduction), and leaves function in photosynthesis.
Thus, all of the following are part of a plants organizational structure except atoms. So, the correct option is (A).
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A condition in which the arteries are hardened and have reduced elasticity is _____.
what common type of rock is most susceptible to chemical weathering but resistant to physical weathering
options:
gravel
rock salt
marble
pea stone
I think gravel because it’s the best
BRAINLIEST AND 100 POINTS WILL BE GIVEN!! PLEASE HELP! I HAVE A C AND I NEED TO GET MY GRADE UP!!!
1) During which moon phase do spring tides occur?
new moon and full moon
first quarter and third quarter
waxing gibbous and waning gibbous
waxing crescent and waning crescent
2) How often do spring and neap tides occur?
twice a day
twice a month
every 27.3 days
every 24 hours
3) During which phase of the moon does a lunar eclipse occur?
full moon
third quarter
waxing gibbous
waning crescent
4) Which movement causes day and night on Earth?
rotation of Earth
revolution of Earth around the Sun
Earth’s elliptical orbit in space
moon’s orbit around Earth
5) CHECK ALL THAT APPLY. What occurs during a solar eclipse?
Earth is closest to the Sun.
There are small tides across Earth.
The moon’s shadow falls on Earth.
The moon is covered in Earth’s shadow.
The moon is between Earth and the Sun.
6) How long is the lunar cycle?
14 days
24 hours
365 days
27.3 days
7) In which direction does the Sun appear to move across the sky?
from west to east
from east to west
from north to south
from south to north
ANSWER ALL OF THEM. IF YOU ONLY ANSWER ONE OR TWO I WILL REPORT!! IF YOU CAN ANSWER ALL OF THEM CORRECTLY ILL GIVE YOU 100 MORE POINTS ON A DIFFERENT QUESTION!!
1. Spring tides occur during new moon and full moon phase . Option 1
2. Spring and neap tides occur twice a month. Option 2
3. Lunar eclipse occur during the full moon phase. Option 1
4. The rotation of Earth causes day and night on Earth. Option 1
5. Things that occur during solar eclipse are
The moon’s shadow falls on Earth.
The moon is between Earth and the Sun.
The moon is covered in Earth’s shadow.
6. Lunar cycle is 27.3 days
7. The Sun appear to move from east to west across the sky. Option 2
What is an eclipse?An eclipse is a remarkable celestial phenomenon in which one celestial body passes into the shadow of another, causing a temporary obscuration of light.
The two main types are solar and lunar eclipses. A solar eclipse happens when the Moon moves between the Earth and the Sun, resulting in the Sun's light being partially or completely blocked. Lunar eclipses occur when the Earth is positioned between the Sun and the Moon, causing Earth's shadow to fall on the lunar surface.
This can lead to a dimming or reddening of the Moon. Eclipses hold scientific significance as opportunities for studying celestial interactions and have cultural importance as awe-inspiring events that have intrigued societies throughout history.
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(04.03 LC)
Which of the following statements is true about cellular respiration?
A) It converts energy into food.
B) It breaks down food to release energy.
C) It turns carbon dioxide into water.
D) It turns water into carbon dioxide.
Im pretty sure its B but just in case.....
Answer:
B
Explanation:
OPTION B IS THE RIGHT ANSWER
The correct answer is B !!
Which type of secretion enters the interstitial fluid and affects neighboring cells in the same tissue?
Paracrine signaling refers to a type of secretion where a chemical, known as a paracrine factor, enters the interstitial fluid and affects neighboring cells within the same tissue.
The type of secretion that enters the interstitial fluid and affects neighboring cells in the same tissue is known as paracrine signaling. Paracrine factors are chemicals that induce responses in cells that are in close proximity. Although they may enter the bloodstream, their primary function is localized affecting cells within the same tissue. Histamine, which is released by immune cells and causes constriction of the bronchial smooth muscles, is an example of a paracrine. Another example includes neurotransmitters within the nervous system that act locally within the synaptic cleft.
radiocarbon dating is used to date
Answer:radiocarbon dating
Explanation:
Radiocarbon dating is a method for determining the age of an object continuing organic materials by using the peppering for Radiocarbon ,a radio active isotope of carbon.
This method was originally done by beta counting device which counted the amount of beta radiation emitted by the C14 of the decaying substance
More recently the method called accelerated mass spectrometery has become the method of choice
Radiocarbon dating is a method used to date organic materials by measuring the amount of carbon-14 left after an organism's death. It requires calibration against other dating methods due to atmospheric variations of carbon-14 over time and can date samples up to about 58,000 to 62,000 years old.
Radiocarbon dating, also known as carbon-14 dating or 14C-dating, is an absolute dating technique that is used to determine the age of organic materials. The method is based on the decay of the radioactive isotope of carbon called carbon-14, which is absorbed by organisms during their lifespan. As living organisms take in carbon, including carbon-14, it becomes part of their tissue. When they die, they stop absorbing carbon, and the carbon-14 present starts to decay at a known rate, with a half-life of approximately 5730 years, meaning the amount of carbon-14 reduces to half its original amount during this period.
To date organic samples, scientists measure the amount of carbon-14 remaining. Because the production and concentration of carbon-14 in the atmosphere have varied over time, calibration against other reliable dating methods is often necessary. Techniques like dendrochronology (tree-ring dating) and analysis of ice cores help ensure the accuracy of radiocarbon dating results for materials up to about 58,000 to 62,000 years old, though some sources suggest it can be used for materials as old as approximately 70,000 years.
Radiocarbon dating is widely used in fields such as archaeology and geology but requires careful calibration and consideration of the sample's age and the historical levels of carbon-14 in the atmosphere.
Type the term that means the study and science of disorders and treatment of the eye.
Which of the following would be required in a bacterial expression vector but NOT in a bacterial cloning vector?
A) bacterial origin of replication
B) bacterial selectable marker
C) multi-cloning site
D) bacterial promoter
Answer:
i believe it is A
Explanation:
How does the structure of a neuron make it effective in carrying out the functions of the nervous system?
Answer:
To review, neurons are specialized cells of the nervous system that transmit signals throughout the body. Neurons have long extensions that extend out from the cell body called dendrites and axons.
Due to this long and extended structure the neurons effectively carry out the functions of the nervous systems...
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The structure of a neuron is highly specialized and crucial for its effective functioning within the nervous system.
Neurons consist of three main components: the cell body, dendrites, and axon. The cell body contains the nucleus and essential organelles for maintaining cellular functions. Dendrites receive incoming signals from other neurons and transmit them toward the cell body.
The axon, a long fiber, carries outgoing signals away from the cell body and toward other neurons or target cells. This structural arrangement allows neurons to rapidly transmit electrical impulses, known as action potentials, across long distances. The presence of a myelin sheath, formed by specialized glial cells, enhances the speed and efficiency of signal transmission.
Therefore, the unique structure of neurons enables them to process and transmit information, facilitating communication and coordination within the nervous system.
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Consider the dna sequence 5'-gattaca-3'. if the strand with this sequence forms a double helix with another dna strand, the sequence on the other strand should be ____. 3'-gattaca-5' 5'-ctaatgt-3' 3'-ctaatgt-5' 3'-ctaatgt-3' 5'-ctaatgt-3'
Answer:
It would be CTAATGT
In DNA, the sequence 5'-GATTACA-3' can form a double helix with another DNA strand having the sequence 3'-CTAATGT-5'.
Deoxyribonucleic acid (DNA) is a molecule formed by two antiparallel strands where nucleotides (i.e., their building blocks) interact by hydrogen bonds.Both DNA strands are linked together by hydrogen bonds between pairs of nucleotides.The complementary base-pair rule indicates that Adenine (A) always pairs with Thymine (T) in the opposite DNA strand, whereas Guanine (G) always pairs with Cytosine (C). Guanine pairs with Cytosine by three (3) hydrogen bonds; whereas Adenine pairs with Thymine by two (2) hydrogen bonds.In conclusion, in DNA, the sequence 5'-GATTACA-3' can form a double helix with another DNA strand having the sequence 3'-CTAATGT-5'.
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Which of the following sensory receptors is correctly paired with its category?
A) hair cell—mechanoreceptor
B) muscle spindle—electromagnetic receptor
C) taste receptor—mechanoreceptor
D) rod—chemoreceptor
E) olfactory receptor—electromagnetic receptor
B is the right answer
How do cells take in particles too big to pass through protein channels?
Answer:
It is possible for large molecules to enter a cell by a process called endocytosis, where a small piece of the cell membrane wraps around the particle and is brought into the cell. If the particle is solid, endocytosis is also called phagocytosis. If fluid droplets are taken in, the processes is called pinocytosis.
Final answer:
Cells use endocytosis to take in large particles that cannot pass through protein channels, which involves the cell membrane engulfing the particle and requires energy.
Explanation:
Cells take in particles that are too big to pass through protein channels via a process called endocytosis. This is an energy-requiring process where the cell membrane engulfs a particle and forms a vesicle around it inside the cell. As the cell membrane wraps around the particle, it eventually pinches off, securing the particle within a newly created vesicle.
There are different types of endocytosis, including phagocytosis (the engulfing of large particles or even other cells), pinocytosis (the ingestion of fluid and small particles), and receptor-mediated endocytosis (where specific molecules are taken in after they bind to receptors on the cell surface). These processes enable cells to intake nutrients, remove waste materials, and interact with their environment in ways that are not possible through protein channels alone due to the size restriction.