Muscles are unlikely to break off their bones because they are held together by connective tissues called tendons.
Tendons are capable of withstanding high levels of tension since they are strong and flexible. They serve as a connection between the muscle and the bone, enabling movement without the muscle separating from the bone.
In order to prevent the muscle from tearing under the strain of movement, the tendon's flexibility also aids to cushion the muscle.
Additionally, the tendon has the capacity to absorb some of the force generated by the contraction of the muscle, which aids in lowering the force applied.
Finally, ligaments hold the muscles and bones together and offer joint stability. To maintain the muscles linked to the bones and stop them from separating, the tendons, ligaments, and muscles all work together.
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Different types of cells can have certain organelles and structures in common. Which types of cells definitely contain cell walls?a. plant and animal cellsb. plant and eukaryotic cellsc. plant and prokaryotic cells d. animal and eukaryotic cells
Although not all cells have cell walls, they can be found in both prokaryotes and eukaryotes. A structure outside the plasma membrane is the cell wall, which is seen in Figure 1's depiction of a plant cell.
A cell wall is not present in every cell, although every cell has a cell membrane. Since cell walls are so tough, moving the cell is more difficult. Cell walls differ between bacterial and plant cells because they can be composed of a range of materials. Moreover, there are a few cells that literally do not have cell wall and they are known as animal cells.
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In stabilizing selection, what occurs in a population?
a. The population shifts toward one of two extreme phenotypes.
b. Both extreme phenotypes shift toward the middle.
c. The intermediate phenotype becomes more common.
d. The intermediate phenotype becomes rare.
The intermediate phenotype becomes more common In stabilizing selection
When stabilizing selection occurs, what happens in a population?
When natural selection favors an average phenotype and excludes extreme deviations, stabilizing selection reduces the genetic variance of a population. When exposed to environmental changes, a population's genetic variation shifts toward a new phenotype, which is known as directional selection.
The population undergoes stabilizing selection when selective pressures choose between two extremes of a trait. For instance, stabilizing selection may have an impact on plant height. If a plant is too short, it might not be able to compete for sunlight with other plants.
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Write the complementary pair for this sequence
3' ATGGCTACAAAGCC5'
The complementary of A is T and for G is C, therefore the complementary sequence should be …. TACCGAACT…
What is the complementary sequence for 5 ATCG 3?Adenine builds the double bond with thymine while guanine makes the triple bond with cytosine which method adenine and thymine complementary base pairs and cytosine and guanine are complementary base pairs. The complementary sequence for the DNA shore 5' ATCGAACGT 3' is 3' TAGCTTGCA 5'.
Because of complementary base-pairing, this action generates a new strand of mRNA that is ordered in the 3' to 5' direction. As the RNA polymerase continues
So we can conclude that For the DNA strand 5'-TACGATCATAT-3' the right complementary DNA ... First write the accurate base pairing below the original sequence and ...
Missing:
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what is the advantage of a mature red blood cell having aflattened shaperather than a spherical shape?
The flattened shape of red blood cells is critical for their ability to efficiently transport oxygen and carbon dioxide throughout the body.
The advantage of a mature red blood cell having a flattened, discoid shape rather than a spherical shape is that the flattened shape provides a larger surface area-to-volume ratio, allowing for more efficient gas exchange.
Red blood cells, or erythrocytes, are responsible for transporting oxygen from the lungs to the tissues and carbon dioxide from the tissues to the lungs. The flattened shape of red blood cells allows them to stack and form a biconcave shape, which provides a larger surface area for gas exchange to occur. This is important because it allows for more efficient diffusion of oxygen and carbon dioxide across the cell membrane. Additionally, the flattened shape of red blood cells allows them to be more flexible and better able to navigate through the narrowest capillaries and blood vessels, which is essential for their function in delivering oxygen to tissues throughout the body.
If red blood cells were spherical, their surface area-to-volume ratio would be lower, making gas exchange less efficient. They would also be less flexible and have a harder time navigating through narrow capillaries and blood vessels.
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Brooke was supposed to visit her mother for dinner. However, the sun is setting and Brooke has a flashback to a car accident she had when she drove at night. She is very shaken and decides not to go. Brooke would likely be diagnosed with
post-traumatic stress disorder
a specific phobia
obsessive-compulsive disorder
major depressive disorder
Brooke would likely be diagnosed with post-traumatic stress disorder. Hence, the correct option is A.
What do we understand by post-traumatic stress disorder?A terrifying event can result in post-traumatic stress disorder (PTSD), a mental health condition brought on by witnessing or experiencing it. A few possible symptoms include flashbacks, nightmares, excruciating anxiety, and uncontrollable thoughts about the incident. Get enough sleep, eat a healthy diet, exercise, and unwind. Caffeine and nicotine should be limited or avoided because they can exacerbate anxiety. Self-medication should never be attempted. Although it may be tempting to use alcohol or drugs to dull your emotions, doing so is harmful.
There is no known cure for PTSD, as there is for the majority of mental illnesses, but the symptoms can be successfully managed to allow the patient to resume normal functioning. The best option for is to combine medication and therapy.
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Answer:
PTSD
Explanation:
what is the likely source for reservoir of organisms that grew best at 35c, and how do they survive at room temperature without nutrients?
Organisms that grow best at 35°C are often mesophilic, meaning they thrive in moderate temperatures. The likely sources for a reservoir of such organisms are many, including soil, water, food, and the human body.
As for how they survive at room temperature without nutrients, many mesophilic organisms have developed strategies to adapt to changing environmental conditions. One such strategy is the formation of spores. Bacterial spores are dormant, non-reproductive structures that allow bacteria to withstand harsh environmental conditions such as high temperatures, radiation, and lack of nutrients.
When conditions improve, spores can germinate and grow into new bacteria. However, not all mesophilic organisms are capable of spore formation. Some may have other mechanisms to survive in adverse conditions, such as entering a dormant state or reducing their metabolic activity until more favorable conditions arise.
In addition, some mesophilic organisms can tolerate a wide range of temperatures, including room temperature. They may be able to maintain their cellular structures and function at low levels for extended periods of time until nutrients become available.
Overall, the survival mechanisms of mesophilic organisms are diverse, and can include spore formation, dormancy, reduced metabolic activity, and temperature tolerance, among others.
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What specific neurotransmitter is released during neuromuscular junction?
Acetylcholine is a specific neurotransmitter is released during neuromuscular junction.
NeurotransmitterAlthough motoneurons and presynaptic terminals of rodent endplates from the extensor digitorum longus (EDL) and soleus muscles are positive for glutamate labelling, acetylcholine (ACh) is still the main neurotransmitter at the vertebrate neuromuscular junction (NMJ).Acetylcholine serves as the primary neurotransmitter in the parasympathetic nervous system, a component of the autonomic nervous system (a branch of the peripheral nervous system) that slows the heart rate, relaxes smooth muscles, widens blood vessels, and produces more body secretions.It contributes to neuroplasticity, memory, arousal, and learning. Additionally, it helps people maintain focus and helps the brain's reward system work by activating sensory functions when they first awake.For more information on acetylcholine kindly visit to
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what is called the largest type of lymphatic vessel, which deposits lymph into the subclavian veins
Answer:
The largest type of lymphatic vessel that deposits lymph into the subclavian veins is called the thoracic duct.
Explanation:
which of the statements do you think best describes the way that base pairing stabilizes the double helix of dna? A. A-T pairs have fewer H-bonds to break, so it requires less energy. B. One base pair has an effect on another. C.Two factors are mainly responsible for the stability of the DNA
The statement that best describes the way that base pairing stabilizes the double helix of DNA is B. One base pair has an effect on another.
The double helix structure of DNA is stabilized by the complementary base pairing between nucleotide bases. Adenine (A) always pairs with thymine (T) and guanine (G) always pairs with cytosine (C). The bases are held together by hydrogen bonds between the nitrogenous base pairs, with A-T forming two hydrogen bonds and G-C forming three hydrogen bonds.
The interaction between the base pairs is what provides the stability to the DNA double helix. The complementary base pairs fit together like a lock and key, and the hydrogen bonds between the bases provide an attractive force that keeps the two strands of the helix together.
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______ are thickened regions of muscle that function like valves to control the flow of contents at various points in the gi tract.
Sphincters are thickened regions of muscle that function like valves to control the flow of contents at various points in the gi tract.
Sphincters, which resemble ring-shaped muscles, create valves in the digestive system. The gastro-esophageal sphincter, also known as the cardiac sphincter, is situated at the oesophagus' stomach end. This sphincter opens in reaction to swallowing and the pressure put on it by the food bolus, allowing the bolus to enter the stomach. Those in the gastrointestinal (GI) tract assist in controlling the passage of bile and digestive enzymes into the intestines as well as the movement of food from the oesophagus to the anus. This sphincter closes when there is no swallowing motion, preventing stomach contents from ascending the oesophagus. Acid reflux, sometimes known as "heartburn," happens when the digestive system's acidic contents leak into the oesophagus.
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in a food chain, snakes consume mice, which in turn feed on grasshoppers. the grasshoppers consume grass. how great a biomass of mice could 10,000 kg of grass likely support?
The biomass of mice that 10,000 kg of grass might possibly support is difficult to predict. This is due to how inefficiently energy is transferred between each trophic level.
For instance, 10 kilogrammes of grass is required to maintain 1 kg of grasshoppers, and 10 kg of grasshoppers are required to support 1 kg of mice.
Thus, the 10,000 kg of grass could sustain around 1000 kg of grasshoppers, who in turn could sustain about 100 kg of mice. This number is approximate since the environment and the species involved can affect how well energy is transferred from one trophic level to the next.
The biomass of mice that 10,000 kg of grass could support is therefore likely to be somewhere between 100-1000 kg.
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which two of the following statements regarding heterotrophs are true? a. amino acids may be a good carbon source for a teterotroph. b. most heterotrophs are restricted to just a few caron substrates
Amino acids may be a good carbon source for a heterotroph
What roles do heterotrophs play?
There is no doubt that heterotrophs serve as consumers in the food chain. Additionally, they obtain nutrition through holozoic, saprotrophic, and parasitic sources. They also enjoy dissecting sophisticated organic molecules.
As heterotrophs are unable to produce their own food, they must consume it or absorb it. Heterotrophs are also referred to as consumers because of this. Contrary to autotrophs, which must use some of their energy for carbon fixation, heterotrophs are able to utilise all of the energy they acquire from food for growth and reproduction by eating reduced carbon molecules.
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in which strand of cellular nucleic acids would you expect to find 2'-hydroxyls groups on the riboses?
The correct answer is option C. TATATATATA.
The DNA strand, which is made up of four separate nitrogenous bases, adenine (A), cytosine (C), guanine (G), and thymine (G), contains the 2-hydroxyl groups on the riboses (T). Thymine (T), a repeating nitrogenous nucleotide, makes up the whole of DNA strand C. TATATATATA.
Consequently, it may be inferred that this DNA strand includes 2-hydroxyl groups since thymine (T), one of DNA's four nitrogenous bases, is present in it.
The five-carbon sugar ribose, which maintains the nitrogenous base in place on the DNA strand, is where the 2-hydroxyl groups are found.
In contrast to RNA, which has a ribose sugar with one oxygen atom in place of a hydrogen atom, this strand of DNA's ribose sugar is made up of 2-hydroxyl groups, which is a crucial distinction to make.
Complete Question:
In which strand of cellular nucleic acids would you expect to find 2- hydroxyls groups on the riboses?
A. AGGCTTAGCC
B. CAATTGGCAC
C. TATATATATA
D. UACCAUGGCA
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Does protein expression begin with transcription or translation?
a. translation
b. transcription
Option B, transcription describes protein expression begin with.
Protein expression is the process by which a gene is transformed into a functional protein, and it begins with transcription. Transcription is the first step in the process and evolution the transfer of genetic information from DNA to RNA, specifically messenger RNA (mRNA). The mRNA molecule carries a copy of the genetic information from the DNA to the ribosome, where translation occurs. Translation is the process by which the genetic information in the mRNA is used to construct a protein molecule. The ribosome reads the sequence of codons in the mRNA and uses it to assemble the corresponding evolution of amino acids to form a protein. Thus, transcription is the first step in the process of protein expression, and it must occur before translation can take place.
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the major reason that anti-parallel beta-stranded protein structures are more stable than parallel beta-stranded structures is that the latter:
They have weaker hydrogen bonds laterally between adjacent strands. Antiparallel ß sheets are a little more stable than parallel ß sheets because the hydrogen bonding structure is more perfect in them. Click the image below to view parallel and antiparallel ß sheet diagrams.
Protein structure is the three-dimensional arrangement of the atoms within an amino acid-chain molecule. Proteins, or more specifically polypeptides, are made up of amino acid sequences that function as the polymer's monomers. Since an amino acid monomer serves as the basic building block of a polymer, it is occasionally referred to as a residue. Amino acids undergo condensation processes, losing one water molecule each time, in order to form peptide linkages with one another and generate proteins. A peptide, as opposed to a protein, is a chain of amino acids that contains fewer than 30 amino acids.
The complete question is:
The major reason that antiparallel β-stranded protein structures are more stable than parallel β-stranded structures is that the latter:
A) are in a slightly less extended configuration than antiparallel strands.
B) do not have as many disulfide crosslinks between adjacent strands.
C) do not stack in sheets as well as antiparallel strands.
D) have fewer lateral hydrogen bonds than antiparallel strands.
E) have weaker hydrogen bonds laterally between adjacent strands.
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How do butterflies maintain homeostasis?
Butterflies are able to maintain homeostasis primarily by migrating away from the sun to find warmth. All animals have the ability to maintain body homeostasis. This is how animals keep everything in balance to survive.
How do butterflies regulate their body temperature?Butterflies are cold-blooded animals and have no way of regulating their body temperature. Instead, they must rely on their behavioral instincts to warm themselves up in order to fly. This is also known as thermoregulation.
How do butterflies adapt to their environment?Some butterflies protect themselves with camouflage. By folding the wings, the underside is exposed and blends in with its surroundings. This strategy, known as crypsis, makes them nearly invisible to predators. However, bright colors and distinctive wing patterns can be advantageous.
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the effects of genetic drift are more pronounced in smaller populations.T/F
True. The effects of genetic drifts are more pronounced in smaller populations. Genetic drift is a mechanism of evolution that occurs when random events cause changes in the frequency of alleles (different versions of a gene) in a population.
Genetic drift is more pronounced in smaller populations because chance events can have a larger impact on the allele frequencies in the population. In a larger population, chance events are more likely to be balanced out by other events, and the overall impact on allele frequencies is less pronounced. As a result, genetic drift can have a greater effect on smaller populations, leading to a reduction in genetic variation and potentially causing alleles to become fixed (where all individuals in the population have the same allele) or lost (where an allele is no longer present in the population). This can have important consequences for the genetic makeup and evolutionary potential of the population.
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In what ways do the macroscopic features of bacterial colonies differ than those of molds?
Mold colonies tend to be fuzzy, but bacterial colonies are often smooth. While germs exist in a range of hues, moulds are often white, grey, or green in appearance.
What kinds of bacteria colony are there?Bacterial colonies can be classified as round, asymmetrical, filamentous, spindle, rhizoid, or concentric based on their shape. They are classified as whole, lobate, undulate, filaments, and irregular based on the form of their edge.
How can a bacterial colony be recognised?Each distinct colony contains a single cell membrane or group that has undergone recurrent division. The resultant cells have gathered to create an observable patch due to being retained in one location. The majority of bacterial colonies have a colour that is either white or creamy yellow and have a roughly round shape.
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the system of membranous saccules that is studded with ribosomes and capable of producing proteins is the
The system of membranous saccules that is studded with ribosomes and capable of producing proteins is termed as rough endoplasmic reticulum, or rough ER .
Function of rough endoplasmic reticulum :-
The endoplasmic reticulum can either be smooth or rough, and in general its function is to produce proteins for the rest of the cell to function. The rough endoplasmic reticulum has on it ribosomes, which are small, round organelles whose function it is to make those proteins.
Structure of the Rough Endoplasmic Reticulum -
The structure of the rough ER is also intimately involved with the presence of cytoskeletal elements – especially microtubules. When microtubule structure is temporarily disrupted, the ER network collapses and reforms only after the cytoskeleton is reestablished. Changes to the pattern of microtubule polymerization are also reflected in changes to ER morphology.
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the nutritive tissue of the seeds of angiosperms is ________, while the nutritive tissue in the seed of a gymnosperm is______.
Angiosperm seeds have triploid nutritive tissue, whereas gymnosperm seeds have haploid nutritive tissue.
The nutritive tissue of the seeds of angiosperms is the endosperm, while the nutritive tissue in the seed of a gymnosperm is usually the female gametophyte, also known as the megagametophyte or the "nucleus" of the ovule.
In angiosperms, the endosperm is formed after fertilization and provides nutrients for the developing embryo, which will eventually grow into a new plant. In some species, such as corn and wheat, the endosperm is part of the seed that is harvested for food.
In gymnosperms, the female gametophyte is formed before fertilization and serves as a source of nutrients for the developing embryo. It is typically smaller than the endosperm of angiosperms and is not as important for food production.
The complete question is:-
The nutritive tissue of the seeds of angiosperms is ________, while the nutritive tissue in the seed of a gymnosperm is______.
A. diploid, haploid
B. triploid, diploid
C. haploid, diploid
D. triploid, haploid
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Neutrophils remove invading microorganisms through a process called options:a. phagocytosis. b. passive transport.c. pinocytosis. d. facilitated diffusion.
The correct choice is a. Cells eat and disintegrate particles, such as bacteria and other cells, through a process called phagocytosis.
As it aids in defending the body from external intruders, it is an essential part of the immune system. As part of the process of phagocytosis, the particles must first be recognized, then they must be bound to, then they must be engulfed, and ultimately they must be digested and discarded. In order to defend themselves, cells like white blood cells employ a process called phagocytosis to take in and digest foreign substances like bacteria and viruses. Innate immune responses to infection, such as phagocytosis, are crucial because they assist in removing and destroying invasive microorganisms.
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Under what conditions would the butterflyfish be unable to adapt to the change in the food sourcer
The reef butterflyfish is well suited to life on the reef. Its compressed body allows for darting in and out of coral. The small, protractile mouth is specifically adapted to crevice feeding.
Why are Archaea considered a monophyletic group according to the three-domain hypothesis? a. Because this group includes all organisms except eukaryotes. b. Because this group includes an ancestral population and all of its descendants. c. Because all members of this group lack membrane-bound organelles. d. Because this group evolved after the origin of bacteria
This group consists of a population from the past and each of its offspring. In accordance with the three-domain idea, Archaea is therefore regarded as a monophyletic group.
Considering that this group consists of the ancestral population with all its offspring. All organisms were identified as methods are divided into two primary lineages, either prokaryotes or eukaryotes, in early theories on the taxonomy of life. Indeed, Archaea and Eukarya—not Archaea and Bacteria—form a monophyletic group. Despite the fact that on the surface archaea appear to resemble bacteria more than eukaryotes, these relationships show that archaea are more closely linked to eukaryotes than it is to bacteria. Any of a group or single-celled prokaryotic creatures known as archaea, or members of the domain Archaea, differ from bacteria (the other, more well-known category of prokaryotes) and eukaryotes molecularly.
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when a person cries, tears are exported from cells. which category of transport most precisely matches this process?
The process of exporting tears from cells involves an active transport mechanism known as exocytosis.
What is exocytosis?Cells transfer chemicals, such as hormones or proteins, to the exterior of the cell through a process called exocytosis.
When tears are produced, the cells in the lacrimal glands that do so release the fluid by a process called exocytosis, which enables it to leave the cell and enter the tear ducts.
A vesicle or membrane-bound organelle carrying the material to be released fuses with the cell membrane during exocytosis, enabling the release of the contents of the vesicle outside the cell.
Thus, exocytosis is the type of transport that best describes the method by which cells export their tears.
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What are the 4 categories of eukaryotic microorganisms?
The four categories of eukaryotic microorganisms are Protozoa, Fungi,
Algae, Parasitic worms.
Protozoa: These are single-celled organisms that are typically motile, and they can be found in a variety of environments including soil, water, and in the bodies of other organisms. Some protozoa are free-living, while others are parasitic and cause diseases such as malaria and sleeping sickness.
Fungi: These are organisms that include yeasts, molds, and mushrooms. They are heterotrophic, meaning that they obtain their nutrients from other organisms. Fungi can be found in a variety of environments, including soil, water, and on living organisms.
Algae: These are photosynthetic microorganisms that are found in aquatic environments such as oceans, lakes, and ponds. They can be single-celled or multicellular and come in a variety of shapes and sizes.
Parasitic worms: These are multicellular organisms that include various types of worms that are parasitic in nature. They can be found in a variety of hosts including humans, livestock, and pets. Examples include tapeworms and roundworms.
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Which statement describes plant-like protists?
Answer:
Algae are plant-like protists
Explanation:
Plant-like protists are called algae. They include single-celled diatoms and multicellular seaweed. Like plants, algae contain chlorophyll and make food by photosynthesis. Types of algae include red and green algae, euglenids, and dinoflagellates.
Glycerol
A fat molecule is composed of two types of smaller molecules: ___ and fatty acids.
A glycerol backbone and three fatty acid tails make up the two types of components that make up a fat molecule. A fatty acid is made up of a long hydrocarbon chain connected to a carboxyl group, whereas glycerol is a tiny chemical molecule containing three hydroxyl (OH) groups.
Natural fatty acids between 4 and 28 have an unbranched chain with an even number of carbon atoms in the majority of cases. Fatty acids can account for as much as 70% of the total weight of the lipids in some species, such as microalgae. In other species, fatty acids, such as triglycerides, phospholipids, and cholesteryl esters, are not present in their purest form. In all of these forms, fatty acids are vital cellular building components and one of the main nutritional sources of energy for animals.
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The information carried by a DNA molecule is in __________.
the order of the nucleotides in the molecule
its amino acid sequence
the sugars and phosphates forming its backbone
the total number of nucleotides it contains
The DNA's nucleotide sequence contains the genetic information. Each DNA molecule is made up of two complementary strands of nucleotides that are joined by hydrogen bonds to create a double helix.
What is DNA?DNA, which is an abrreviation for deoxyribonucleic acid, is how majority of organisms we know of store their genetic information. Almost every cell in a person contains their unique DNA. Nuclear DNA, which makes up the majority of DNA in a cell, is also present in very small amounts in the mitochondria (where it is called mitochondrial DNA or mtDNA). Food energy is converted by cellular organelles called mitochondria into a form that may be used by cells.
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What are the inner mass cells of blastocyst?
An embryo's early development includes a component known as the inner cell mass (ICM), also known as the embryoblast (or pluriblast in marsupials). The blastocyst's mass of cells is what eventually gives rise to the fetus's distinct structures.
What is cells of blastocyst?A ball of cells known as a blastocyst develops in the first five to six days of pregnancy, shortly after a sperm fertilizes an egg. It embeds itself in the uterine wall, developing into an embryo and subsequently a fetus. An important stage in the development of an amphibian embryo is the blastocoel. It allows for cell movement during gastrulation and prevents premature interaction between the cells below and above the blastocoel.
What cells make up blastocyst?The blastocyst is made up of three cell lineages: extraembryonic TE cells, primitive endoderm (PE) cells, and pluripotent epiblast (EPI) cells, which contribute to the placenta or yolk sac, respectively.
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When pollen of a flower is transferred to the stigma of another flower of the same plant, the pollination is referred to as
A. geitonogamy
B. autogamy
C. allogamy
D. xenogamy
The correct option is A. Geitonogamy
Geitonogamy refers to the movement of pollen grains from the anther of one flower to the stigma of another blossom on the same plant.
The process of moving pollen grains from an anther to the stigma of a pistil is known as pollination. It is a method of bringing non-motile male and female gametes together for fertilisation. Self-pollination is the pollination process in which pollen grains from the anther combine with the stigma of the same flower or a different blossom on the same plant.
Autogamy and geitonogamy are the two types of self-pollination. Geitonogamy is the movement of pollen grains from one flower's anther to the stigma of another on the same plant. This transmission is aided by a pollinating agent. Because the pollen grains are derived from the same plant, it is genetically equivalent to autogamy.
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