Answer:
Cell plate
Explanation:
Cell plate is a plate that forms during the cytokinesis of the plants, and helps in separation of chromosomes in two new cells and in new cell wall formation. Vesicles that contain components for the new cell wall and cell membrane) are transported from the Golgi apparatus to the to the plane of cell division. Vesicles fuse within the plate. Direction of the cell plate growth is from the center towards the plasma membrane. This growth depends on phragmoplast, structure that acts as a scaffold. When cytokinesis is complete, cell plate becomes the new cell wall.
In plant cells, a structure known as the cell plate forms midway between the divided nuclei during cytokinesis. This process involves Golgi vesicles coming together at the former metaphase plate, forming a phragmoplast. The cell plate, formed from the fusion of these vesicles, grows outwards to the cell walls, eventually becoming the new cell wall.
Explanation:During cytokinesis in plant cells, following the division of the nucleus, a structure known as the cell plate forms midway between the divided nuclei. This important process is facilitated through the help of Golgi vesicles that coalesce at the former metaphase plate, creating a structure referred to as a phragmoplast.
The cell plate, created by the fusion of these vesicles, grows from the center towards the cell walls. The membranes of the Golgi vesicles effectively fuse to form a new plasma membrane that divides the parent cell into two daughter cells. The cell plate further develops into the newly formed cell wall that separates the two newly created cells post cell division.
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In the presence of lidocaine, the action potential was not affected at r1 because _______.
A threadlike structure of dna that carries genes is called
a chromosome is the answer
Answer:
chromosome
Hope this helps
Which process helps increase genetic diversity and variation within species?
A.)meiosis
B.)mitosis
C.)photosynthesis
D.)bacterial fission
Meiosis is the type of process that helps increase genetic diversity and variation within a species.
Answer:
a.meiosis
Explanataon:
What are the two main subdivisions of the nervous system and what areas of the body make up these two subdivisions?
Answer:
The nervous system is comprised of two major subdivisions, the central nervous system (CNS) and the peripheral nervous system (PNS).
Explanation:
Which of the following most often controls the rate of nutrient cycling in ecosystems?A. rate of decomposition of detritusB. primary productivityC. secondary productivityD. both B and C
Answer:
The correct option is A.
Explanation:
Nutrient cycling refers to the process of movement and exchange of various organic and inorganic materials through the biotic and abiotic components of the biosphere. Nutrient cycling is a very important process that ensures that the ecosystem is balanced. The principal factor that controls the rate of nutrient cycling in ecosystem is detritus. Detritus refers to decomposed organic matters. Therefore, the rate of decomposition of organic and inorganic nutrients majorly determine the rate at which nutrient cycling occurs.
Blood returning to the mammalian heart in a pulmonary vein drains first into the
(A) right ventricle.
(B) right atrium.
(C) left ventricle.
(D) vena cava.
(E) left atrium.
Answer:
(E) left atrium.
Explanation:
Pulmonary veins are veins that carry oxygenated blood from the lungs to the heart (left atrium). These veins are part of the pulmonary circuit:
Venae cavae are a vessels (vena cava interior and superior) that carry deoxygenated blood from the body to the right atrium. From the right atrium through the tricuspid valve the blood goes into the right ventricle. Then, from the right ventricle through the pulmonary valve the blood goes into the main pulmonary artery which carries deoxygenated blood to the lungs (to recieve oxygen). Oxygenated blood from the lungs travels to the heart: two pulmonary veins from each lung to the left atrium.
Blood returning from the lungs via a pulmonary vein enters the heart through the left atrium.
Explanation:Blood returning to the mammalian heart in a pulmonary vein first drains into the left atrium (E). The right atrium receives blood from the systemic circuit that is low in oxygen, which then moves to the right ventricle and is pumped to the lungs via the pulmonary artery. The oxygenated blood from the lungs then returns through the pulmonary veins and enters the left atrium. The pulmonary circulation involves the movement of blood from the right atrium, to the right ventricle, to the lungs, and back to the heart's left atrium.
Much of the energy that the brain expends is used for
Answer:
signaling processes
Explanation:
Neurons within the brain are constantly processing and transmitting information. Electrical impulses that pass from one neuron to another consume a lot of energy. So, sending, receiving and processing the signals are the main events of brain energy expenditure. Neurons also use the energy for the maintenance of themselves and the surrounding glial cells.
Glucose is the main energy source in the brain.
When an amoeba undergoes reproduction, the end result are two totally independent organisms. Which term best describes the amoeba's reproductive strategy?
A. Meiosis
B. Fusion
C. Fission
D. Sexual reproduction
Answer:
C. Fission
Explanation:
Amoeba reproduces by asexual reproduction method - binary fission. After replicating its genetic material through mitosis, the cell divides into two independent equal sized daughter cells.
Answer:
C. Fission
Explanation:
bc when cells pull apart from each other its called binary fission
Amino acids are bound together by a chemical bond known as an amino acid bond to form proteins.A) TrueB) False
Answer:
False
Explanation:
Amino acids are held together by a bond called a peptide bond and not an amino acid bond. A peptide bond is a form of covalent bond that links two amino acids. This is also known as an amide bond. In the making of proteins, peptide bonds link the carboxyl group of one amino acid to the amino group of another.
The genes carried by all members of a particular population make up the population’s
A. allele frequency.
B. phenotype.
C. genotype.
D. gene pool.
The answer is D) gene pool
Why are root tip cells better cells to study than the middle of the roots? a. Cells stop growing at the root tips so you would see more cells dividing b. Root tips are more colorful so you would see more cells dividing c. Only the tips of the roots have a nucleus d. Onion roots grow from the tip so you would see more cells dividing
Final answer:
Root tip cells are better to study than the middle of the roots because they are actively dividing. The root tip contains the actively dividing cells of the root meristem.
Explanation:
The root tip cells are better cells to study than the middle of the roots because they are actively dividing at the apex of the stem. The root tip can be divided into three zones: a zone of cell division, a zone of elongation, and a zone of maturation and differentiation. The zone of cell division is closest to the root tip and contains the actively dividing cells of the root meristem. By studying root tip cells, scientists can observe and analyze cell division and growth processes in plants.
moment magnitude estimates the amount of energy an earthquake releases and is derived from the amount of displacement along
Answer:
Moment magnitude estimates the amount of energy an earthquake releases and is derived from the amount of displacement along FAULT.
Answer:FAULT
Explanation:GRADPOINT
Human sperm cells and egg cells are
A haploid, each containing 23 chromosomes.
B haploid, each containing 46 chromosomes.
C diploid, each containing 23 chromosomes.
D diploid, each containing 46 chromosomes.
Answer:
A. haploid, each contain 23 chromosomes.
Explanation:
A egg and sperms are formed after reduction division or meiosis and hence carry just 23 chromosomes , a single copy after division. the number is restored back to 46 after the fusion of egg and sperm to form a zygote.
A new species is discovered and scientists are trying to classify it. One of the key features found is that the species is entirely dependent on other organisms for its food necessary to sustain life. What type of species is this? A. Autotrophic B. Mixotrophic C. Producer D. Heterotrophic
Answer: Option D
Explanation: The organism that cannot synthesize their own food are kept in the category of heterotrophs. These organism derive their energy from the organism that make food.
These organisms lack the ability of making food by the help of the process photosynthesis. They lack the pigment required for this process.
These kinds of organisms are termed as Heterotrophic organism.
Answer:
D>)Heterotrophic
Explanation:
just took test
How does protein electrophoresis differ from DNA electrophoresis?
Answer:
Electrophoresis is the process in which specific components are separated based on size.
Explanation:
As the name implies protein electrophoresis is used to determine proteins in a sample and DNA electrophoresis is used to determine DNA segments (and later sequences) in a given sample.
Protein electrophoresis differs from DNA electrophoresis mainly due to the structural differences between proteins and DNA. Proteins require denaturation and coating with SDS for separation by SDS-PAGE, while DNA can be separated in agarose gel directly. Two-dimensional electrophoresis adds further separation of proteins by isoelectric points before size.
Protein electrophoresis and DNA electrophoresis are techniques used to separate these macromolecules based on their size and charge. However, due to the structural differences between proteins and DNA, different methods are employed for each. Proteins are structurally diverse and vary in their amino acid compositions, which affects their shape and charge. Proteins are often globular and smaller than DNA, making the large pores of an agarose gel unsuitable for their separation. To overcome these challenges, proteins are commonly denatured with a detergent such as sodium dodecyl sulfate (SDS), which coats the proteins with negative charges and gives them a rod-like shape similar to DNA, allowing them to be separated by size through SDS-PAGE (Polyacrylamide Gel Electrophoresis). In contrast, DNA has a uniform shape and negative charge that allows it to be separated in an agarose gel without prior modification.
What is an example of dolphins overproducing?
The orca, or killer whale, for example, is actually the largest member of the dolphin family. Dolphins are by far more prevalent than porpoises. Most scientists agree that there are 32 dolphin species (plus five closely related species of river dolphin) and only six porpoise species.
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Name the cap of cartilage which prevents food from entering the trachea while swallowing
It’s the epiglottis
How have fruits contributed to the success of angiosperms?
Fruits have helped angiosperms spread their seeds.
Fruit bodies of plants are mature ovaries which is usually fleshy or not. the color/smell/taste of fruit attracts animals to eat the fruit and ingest the seeds. Through evolutionary processes plants “know” that animals travel, so when the animal poops out the seed, the seed will be able to germinate into a new plant in a new area, thus spreading it
The success of angiosperms can largely be attributed to the evolution of their reproductive structures, mainly flowers and fruits. Their numerous dispersal strategies, resulting from their varied fruit structures, in addition to their unique double fertilization process contribute to their wide distribution and dominance in terrestrial habitats.
Explanation:The success of angiosperms, or flowering plants, which comprise about 90 percent of all plant species, is significantly attributed to the evolution of flowers and fruits. Flowers have allowed plants to establish cooperative evolutionary relationships with animals, particularly insects, for the effective dispersion of their pollen. On the other hand, fruits serve dual purpose - they protect the developing embryos and function as agents of dispersal. The differing structures of fruits reflect the varied dispersal strategies that assist in seed distribution, contributing to the widespread success of angiosperms.
Many fruits, such as tomatoes, green peppers, corn, and avocados, are formed to attract animals that eat the fruit and then distribute the seeds through their digestive systems. Other fruits like rice, wheat, and nuts are classified as dry fruits and are designed for wind dispersal. This variety in fruit structure and reflects angiosperms' versatile modes of seed dispersal.
Furthermore, the unique double fertilization process in angiosperms, the creation of a diploid zygote and formation of a triploid cell endosperm, contributes to the resilient success of angiosperms, making them the dominant plant life in terrestrial habitats.
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Paleontologists find a fossil ape with long arms. What type of environment can they infer it inhabited?
a. woodlandb. swampc. savannad. grassland
Answer:
a. woodland
Explanation:
Long arms indicate that these apes were adapted and specialized to live on the trees. Long arms are suitable for them to swing from branch to branch. Usually, apes with long arm also have long fingers and toes, which are also useful for life in woodland.
After duplication, at what point does a cell become two cells with identical DNA? starting in prophase end of anaphase end of cytokinesis
Answer:
end of cytokinesis
Explanation:
Telophase is the last stage of cell division. It ends with cytokinesis which is the splitting of the mother cells into two daughter cells. The cell pinches in the equator region with the help of a ring of contractile protein filaments. The formed cleavage furrow grows until the two cells pinch off completely.
Answer:
The correct answer is: end of cytokinesis
The chemical reactions involved in respiration in prokaryotic and eukaryotic cells are virtually identical. In eukaryotic cells, ATP is synthesized primarily on the inner membrane of the mitochondria. In light of the endosymbiont theory for the evolutionary origin of mitochondria, where is most ATP synthesis likely to occur in prokaryotic cells? a. on the nucleoid membrane b. in the cytoplasm c. on the endoplasmic reticulum d. on the plasma membrane
Answer:
d. on the plasma membrane
Explanation:
According to the endosymbiotic theory the origin of mitochondrion is from the prokaryotic organism: primitive host cell (future eukaryotic cell) engulfed prokaryotic cell (endosymbiont) that provided the functions that evolved into mitochondria. Both of them had benefits: the endosymbiont gained protection and some essential nutrients from the host, while host had the energy and oxygen source from the endosymbiont.
So, the plasma membrane of the endosymbiotic prokaryotic cell became the membrane of the mitochondrion.
ATP synthesis in prokaryotic cells, which lack the organelles found in eukaryotic cells, most likely occurs on the plasma membrane, similar to how ATP synthesis occurs on the inner membrane of mitochondria in eukaryotic cells.
Explanation:The chemical reactions involved in respiration in both prokaryotic and eukaryotic cells do hold a significant similarity. In eukaryotic cells, ATP is primarily synthesized on the inner membrane of the mitochondria. On the other hand, prokaryotic cells do not have mitochondria, but they do perform ATP synthesis. Endosymbiont theory, which proposes that mitochondria were formerly independent prokaryotic cells that were engulfed by another cell, provides a plausible explanation for this. Given that prokaryotic cells do not have the organelles found in eukaryotic cells, ATP synthesis is most likely to occur on the plasma membrane in prokaryotic cells, which is d) in your options.
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Why don't we use more renewable energy sources?
Because sometimes building these facilities is expensive and they usually have to be built in remote areas and burning fossil fuels has also been cheaper than using renewable energy in the past. Another issue is that the form of energy isn't available all the time.
Which of the following is a characteristic feature of a carrier protein in a plasma membrane?
A) It is a peripheral membrane protein.
B) It exhibits a specificity for a particular type of molecule.
C) It requires the expenditure of cellular energy to function.
D) It works against diffusion.
E) It has few, if any, hydrophobic amino acids.
Answer:
Hello there!
The correct answer is B.
Explanation:
We know that carrier proteins are proteins that facilitate the movement of specific molecules across a permeable membrane. With that said, D is incorrect because they perform facilitated diffusion. C is incorrect because diffusion should never require energy, no matter what form or molecule. E is incorrect because the cell membrane has hydrophilic (water-loving) heads and hydrophobic (water-repelling) tails, so the molecule must contain certain amino acid types in order to pass substances through. They are not peripheral membrane proteins because they usually stay on the membrane and never leave it (under most cases). This leaves B to be the only correct answer.
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A characteristic feature of a carrier protein in a plasma membrane is the fact that it exhibits specificity for a particular type of molecule (Option B).
Carrier proteins are cell membrane proteins that are responsible for the transport of substances in and out of cells. These proteins (carriers) move molecules by both passive transport (facilitated diffusion) and active transport mechanisms. For example, the sodium-glucose cotransporter is a carrier protein that mediates the specific movement of sodium ions and glucose molecules across cell membranes.In conclusion, a carrier protein in a plasma membrane exhibits specificity for a particular type of molecule (Option B).
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The main way a recessive allele would be expressed even when only one copy is present would be ________.
sex linked inheritance
Tara's friend, Sally, came to school with a cold and sat in the desk next to Tara's all morning blowing her nose. At lunch, they went outside to sit in the sun and eat. Sally blew her nose again and then gave Tara her cookie since she didn't feel like eating it. Tara ate it and then carried Sally's things back inside for her. Several days later Tara came down with the cold. At what point was it most likely that the virus infected Tara? (2 points) A. When she sat near Sally as she blew her nose allowing the virus to collect on the tissue B. When she ate the cookie which Sally had touched, leaving the virus on it C. When she took the cookie from Sally and gave the virus a chance to penetrate her skin D. When she carried Sally's things and rubbed the virus off them onto her clothes
Answer:
The best Choice is probably C
Explanation:
Viruses are definitely hardy particles, but against skin they don't pose the worse threat. Its when viruses get closer to your "innards" - in other words like your mouth that they can wreak more havoc. Having virus on clothes, on a tissue the sick person is using, and penetrating the skin shouldnt do as much as actually eating the virus. But, depending on the virus penetrating the skin might actually do more damage.The main I reason I say C is becuase the virus sounds like it infects the nasal passages or the facial area which is something that would be in danger moreso if you "ate" the virus rather than just touching it.
Answer:
in the case that it is about how she got sick then its b but this guy up above is right t-.-t
Explanation:
The human body has about 10 bacterial cells for every eukaryotic cell. Bacteria coat our skin, gut, and mouth. Also present are protists, Archaeans, and viruses. Collectively, these organisms are our microbiota. For most members of our microbiota, our body provides their environment (or space to live). They, in turn, have no effect on us. This is an example of: predation. mutualism. commensalism. an antagonistic relationship.
Answer:
commensalism
Explanation:
Commensalism is a type of ecological interaction between two species in which one speices benefits while other is unaffected. Commensalism also can be considered as a type of symbiosis-two species that live together. The interaction between human and its microbiota is beneficial for microbiota while it has no effects on humans.
Although, some bacteria (gut bacteria) can help in digestion. In this case, interaction with human is mutualism (both have benefits).
An injury from an unforeseeable risk can not be compensated by the law of negligence because there is no cause in fact.
a. True
b. False
the answer is F. companies hire pros. 2 evaluate customer risk..example, risk associated with a revolving door...
While listening to his heart with a stethoscope, you notice a high-pitched, blowing, systolic murmur, heard best directly under the left nipple. a review of roger's medical records shows no prior history of a heart murmur. what is causing this new murmur?
A high-pitched, blowing, systolic heart murmur under the left nipple likely indicates turbulent blood flow due to a heart valve condition. Further evaluation with tools like echocardiograms is necessary to diagnose the exact cause of the murmur, considering that heart murmurs are graded on their intensity and auscultation may be enhanced with deep breathing.
Explanation:The heart murmur described by the student is likely to be caused by turbulent blood flow due to a heart valve condition. This type of murmur, being high-pitched, blowing, and heard during the systolic phase of the heart cycle, could be indicative of a mitral valve prolapse, mitral regurgitation, or aortic stenosis. Without prior history of a murmur, a newly detected systolic murmur near the left nipple is of particular concern and warrants further investigation.
Heart murmurs are graded on their intensity from 1 to 6, and the location where the murmur is best heard can provide clues as to which valve may be affected. Moreover, when auscultating the heart, clinicians may request that the patient breathe deeply to enhance the sound of murmurs, which helps in their detection and characterization.
Diagnostic tools such as phonocardiograms, auscultograms, and ultrasounds, particularly echocardiograms, are useful in analyzing these abnormal heart sounds to determine their cause. Given this new finding of a heart murmur in a person with no known history of cardiac issues, a referral to a cardiologist for further evaluation would be prudent.
Which of the following led to the greatest decline of bedbug populations in the mid twentieth century?
Highly improved laundering soaps.
The use of pesticides, namely DDT.
The increased use of running water in homes.
The use of washing machines.
Answer:
The answer is the increase use of running water.
Explanation:
The increased amount of water in homes allowed for washing clothes and bedding.
Answer: Option B
Explanation:
There was rise in the population of bed bug during the mid twentieth century and there was no control on them.
The use of pesticide was the one and only solution on the pests. DDT was a very effective pesticide that killed bed bugs.
DDT was banned after sometime because it entered the food chain and its level was increasing significantly at each level.
But before that it was very effective in eradicating bed bugs.
How does primary succession occur?
Answer:
Primary succession occurs in areas without any soil where basically nothing is there. After an event such as a volcanic eruption, pioneer species such as lichens and mosses are able to colonize the land since they can grow without soil and are primitive. Lichens can break down rock to form soil and they can add small amounts of organic matter to the rocks when they decompose to make even more soil. Simple plants like ferns can then grow in the created soil. After these simple plants die, more organic material is added to the soil and the soil thickens, allowing grasses, wildflowers, and other plants to begin to take over. Next, after these plants die, enough nutrients are added to the soil for trees and shrubs to survive. Finally, insects, small birds, and mammals begin to move into the area and form a community, so what was once bare rock can now support a variety of life.