Answer:
Yes I do indeed believe in aliens of extraterrestrial life
cytochrome c is released from the mitochondria during apoptosis through a process called mitochondrial outer membrane permeabilization (momp). this process involves the formation of protein pores in the outer membrane of the mitochondria, which allows cytochrome c and other proteins to leak out of the mitochondria and into the cytosol. this ultimately leads to the activation of caspases, which are proteases that play a key role in the execution of apoptosis.
Cytochrome c (Cyt c) is a protein that surrounds the mitochondrial inner membrane. The location of Cyt c is in the intermembrane or intercristae part of mitochondria. It is one of many factors that are important for apoptosis.
There’s a stimulus to induce outer membrane apoptosis, then Cyt c mobilizes from CL, and after that Cyt c is released to the cytosol. Cyt c allows apoptosis-protease activating factor 1 for caspase-3 and caspase-9 to be matured.
Basically, Cyt c activates caspase. In this case, Cyt c is a stimulus. After that outer membrane will break to facilitate the mobilization of Cyt c to the cytosol. This is a process of a stimulus, protease, and also proteins.
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The question was incomplete. This is a general answer.
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Most stormwater features such as bioswales, rain gardens, or porous paving have two goals: cleansing and infiltration. A) True B) False.
The answer is True. Most stormwater features such as bioswales, rain gardens, or porous paving have two goals: cleansing and infiltration.
Infiltration describes the more extensive distribution or deposition of foreign substances within a tissue or cell. The term "infiltrate" describes a material that has gathered inside particular tissues or cells. The invasion of cancer cells into the underlying matrix or blood vessels as a result of a disease process is referred to as infiltration. The accumulation of amyloid protein is another meaning of the phrase. In response to cytokines from the blood, white blood cells move during leukocyte extravasation, a process known as chemotaxis, often in the same direction as a chemical gradient, into the diseased or infected tissues.
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3. Trace the pattern of blood flow in the kidneys starting with the abdominal aorta and ending at the inferior vena cava. Hint there are 14 structures in total. (8 points)
The structures of the pattern of blood flow in the kidneys starting with the abdominal aorta and ending at the inferior vena cava are:
1. Abdominal aorta
2. Renal artery
3. Segmental artery
4. Interlobar artery
5. Arcuate artery
6. Interlobular artery
7. Afferent arteriole
8. Glomerulus
9. Efferent arteriole
10. Peritubular capillaries
11. Venule
12. Interlobular vein
13. Arcuate vein
14. Interlobar vein
15. Renal vein
16. Inferior vena cava
The pattern of blood flow in the kidneys starts with the abdominal aorta, which supplies the renal arteries to the kidneys. The renal arteries then branch into segmental branches, which further divide into interlobar arteries. The interlobar arteries then divide into arcuate arteries, which divide into afferent arterioles. The afferent arterioles enter the glomerulus, which is part of the nephron, and supply blood to the glomerular capillaries. The glomerular capillaries are then drained by the efferent arteriole, which carries blood away from the glomerulus. The efferent arteriole then divides into interlobular arteries, which divide into arcuate veins. The arcuate veins then converge to form the interlobar veins, which converge to form the renal vein. The renal vein then empties into the inferior vena cava, completing the pattern of blood flow in the kidneys.
1. The abdominal aorta is a large artery that carries oxygenated blood from the heart to the kidneys.
2. The renal arteries branch off from the abdominal aorta and carry blood to the kidneys.
3. The renal arteries divide into segmental arteries, which enter the kidneys and supply the renal cortex and medulla.
4. The segmental arteries divide into interlobar arteries, which run between the renal pyramids.
5. The interlobar arteries divide into arcuate arteries, which run along the corticomedullary junction.
6. The arcuate arteries divide into interlobular arteries, which supply the renal cortex.
7. The interlobular arteries divide into afferent arterioles, which enter the glomerulus in the renal corpuscle.
8. The afferent arterioles carry blood to the glomerulus and leave as efferent arterioles.
9. The efferent arterioles leave the glomerulus and enter the peritubular capillaries.
10. Theabdominal aorta surround the renal tubules and carry the blood away from the glomerulus.
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The long lost intelligence test results!!!!When Ian Deary and his colleagues (2004) retested 80-year-old Scots, using an intelligence test they had taken as 11-year-olds, their scores across seven decades correlated _______________.A)–.16.B)+.06.C)+.16.D)+.66
Using an intelligence test they had taken as 11-year-olds, their scores across seven decades correlated to D)+.66
Ivy lacks practical intelligence despite having a high IQ score and having trouble managing her finances. People's capacity to discover a better fit between who they are and what is required of them is simply referred to as practical intelligence. Ivy lacks practical intelligence despite having a high IQ score and having trouble managing her finances. She is unable to both adjust to her surroundings and actively pursue her objectives. The idea and practise of assessing people's performance on various diagnostic tools (intelligence tests) as a means of forecasting future behaviour and prospects for their lives, as well as a means of identifying solutions, is known as intelligence test (e.g., educational programs).
The long lost intelligence test results!!!!When Ian Deary and his colleagues (2004) retested 80-year-old Scots, using an intelligence test they had taken as 11-year-olds, their scores across seven decades correlated _______________.A)–.16.B)+.06.C)+.16.D)+.66?
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Facilitated diffusion via channels and carrier proteins The majority of solutes that diffuse across the plasma membrane cannot move directly through the lipid bilayer. The passive movement of such solutes (down their concentration gradients without the input of cellular energy) requires the presence of specific transport proteins, either channels or carrier proteins. Diffusion through a transport protein in the plasma membrane is called facilitated diffusion. outside cell Facilitated diffusion across the plasma membrane channel protein carrier protein inside cell Adapted from Biology by Campbell and Reece © 2008 Pearson Education, Inc. Sort the phrases into the appropriate bins depending on whether they are true only for channels, true only for carrier proteins, or true for both channels and carriers. transport solutes down a concentration or electrochemical gradient undergo a change in shape to transport solutes across the membrane provide a hydrophilic path across the membrane provide a continuous path across the membrane allow water molecules and small ions to flow quickly across the membrane transport primarily small polar organic molecules are integral membrane proteins only channels only carriers both channels and carriers
The concept of facilated diffusion is highlighted in general. It occur down the concentration gradient without energy expenditure.
Diffusion that is assisted (facilitated) by a membrane transport channel is referred to as facilitated diffusion. These pathways, which are composed of glycoproteins (proteins with linked carbohydrates), allow substances to flow across the membrane. These channels are nearly typically unique to either a specific molecule or a certain class of molecule (such as an ion channel), and as a result, they are closely associated with specific physiological processes. For instance, GLUT4 is a crucial transporter channel in the treatment of diabetes. A glucose transporter called GLUT4 is present in skeletal muscle and fat. In order for these cells to absorb glucose from the blood, insulin causes GLUT4 to bind to their membranes and insert.
Since this is a passive system, the amount of sugar that enters our cells is inversely proportional to the amount we ingest, up until the point where all of our channels are being utilised (saturation). Cells with type II diabetes mellitus don't insert GLUT4 into their membranes because they don't respond to insulin as well. As a result, blood glucose levels may increase, increasing the risk of renal failure, heart disease, and stroke.
Hence, facilated diffusion is specialized passive transport.
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Water absorbs heat when it evaporates, allowing organisms to_____to release excess heat.
Water absorbs heat when it evaporates, allowing organisms to maintain a steady temperature to release excess heat.
Does water absorb or release heat when it evaporates?In the case of evaporation, the substance absorbs the energy, whereas in the event of condensation, the substance releases heat. As wet air is raised and chilled, for instance, water vapor finally condenses, releasing enormous amounts of latent heat energy that feed the storm.The process of turning a liquid into a gas is called vaporization. Another name for it is evaporation. Since a gas's particles move more quickly than a liquid's, a liquid needs to be given energy in order to turn into a gas. Heat is the most typical kind of energy addition to a liquid system.To learn more about vaporization refer,
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Mammal populations grew rapidly in number, size, and variety after the death of the dinosaurs. Which statement best explains why mammals would be able to grow in size after the
dinosaurs became extinct?
A. Being large requires having two recessive alleles.
OB. There were more resources due to less competition.
C. Lack of producers led to a decrease in mutualism.
D. Mitosis allowed mammals to produce larger offspring.
which of the following best predicts what will happen to the blood glucose level if the person has another meal at 5 p.m.?
If the person has another meal at 5 p.m., then the blood glucose level will a)increase. So, correct option is a
Blood glucose, or glucose, is considered as the principal sugar tracked down in your blood. It comes from the food you eat, and is considered as your body's principal wellspring of energy. Your blood easily conveys glucose to your body's all's cells to use for energy.
Diabetes is a sickness where your glucose levels are excessively high. Over the long run, having an excessive amount of glucose in your blood can lead to difficult issues. Regardless of whether you have diabetes, at times you might definitely disapprove of glucose that is excessively low or excessively high. Keeping an ordinary timetable of eating, movement, and taking any drugs you really want can help.
Usually a person takes 3 times meal in a single day, if any person takes a meal again at 5pm,then the amount of blood glucose present in his body will definitely increase as his body already contains blood glucose due to three times meal.
Hence, correct option is a.
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(Complete question) is:
which of the following best predicts what will happen to the blood glucose level if the person has another meal at 5 p.m.?
a)increase
b)decrease
c)remains same
d)none of the above
i am found only in the nucleus of eukaryotic cells (the exception is during mitosis, when the nucleus is temporarily disassembled).
I am found only in the nucleus of eukaryotic cells (the exception is during mitosis, when the nucleus is temporarily disassembled) is DNA.
The DNA that is kept in the nucleus of eukaryotic cells is converted into RNA during transcription. the cell-based component that houses the genetic material needed for an organism to grow and function. This genetic material is then taken out of the nucleus and sent to the cytoplasm, where ribosomes utilise it to create protein. This knowledge is passed down from one generation to the next thanks to DNA molecules.
In prokaryotes, the DNA (chromosome) is not contained in a membrane-bound nucleus but rather is in direct contact with the cellular cytoplasm. In eukaryotes, however, the nuclear membrane divides the chromosomes from the rest of the cell because their DNA is organized into compact chromosomes (also called a nuclear envelope).
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the development of gender identity proceeds in several steps or phases. select the developmental steps that are listed in the correct sequence, from youngest to oldest.
The development of gender identity proceeds in several steps or phases. Gender awareness, Gender constancy, Gender identity commitment is the correct sequence from youngest to oldest.
Gender identity and the assigned sex at birth are two distinct concepts. Usually, the sex assigned at birth is determined by the external genital anatomy. The internal sense of being male, female, or a gender along the male-female continuum, however, is known as gender identity. Gender expression is a way that people let other people know their gender. This can be accomplished through dress, hairstyles, and behaviors.
Sexual orientation and gender identity do not develop simultaneously. Whom a person is physically, emotionally, and romantically attracted to is tied to their sexual orientation. Gender-specific actions and expressions include: Particular bathroom habits, like a girl who insists on standing up to urinate, a dislike of donning the birth-sex-designated bathing suit for the child, a fondness for the undergarments that a different sex wear and an intense desire to play with devices that are usually reserved for another sex.
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Prokaryotic genes are often organized into _____.
Answer:
the bacteria and the archaea
The rate of oxygen production equaled the rate of oxygen consumption during which of the following time periods? A Gto H Hto / Ito J Jto K E Gto K
In photosynthesis, sun strength is harvested as chemical strength in a procedure that converts water and carbon dioxide to glucose. Oxygen is launched as a byproduct.
By truely measuring the extent of oxygen fueloline produced through a plant, you could training session the charge at which photosynthesis is happening. The extra oxygen given off, the higher (or faster) the charge of photosynthesis.
The human lung consumes approximately 5-6 ml oxygen in line with minute at an esophageal temperature of 28 ranges C. Prebypass whole-frame oxygen intake measured at almost normothermic situations become 198 +/- 28 ml/min. Mean lung and whole-frame respiration quotients had been similar (0.eighty four and 0.77, respectively).
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If an immunocompromised child lives in a community in which 97% of people have received the MMRV vaccine, herd immunity is likely to protect the child fromA. measlesB. rabiesC. mumpsD. ChickenpoxE. German measlesF. meningitis
If an immunocompromised child lives in a community in which 97% of people have received the MMRV vaccine, herd immunity is likely to protect the child from measles (A), mumps (C), chickenpox (D), german measles (F).
What type of immunity occurs when a person receives the MMR vaccination?When a person receives the MMR vaccination type of immunity which will occur is active Immunity. Vaccine-induced immunity is acquired through the introduction of a killed or weakened form of the disease organism through vaccination.MMRV vaccine contain all three vaccines contain live, attenuated measles, mumps, and rubella virus. MMRV vaccine also contains live, attenuated varicella-zoster virus. The lyophilized live MMR vaccines and MMRV vaccine should be reconstituted and administered as recommended by the manufacturersActive immunity refers to the administration of "antigens" in order to activate an immune response, whereas passive immunity refers to the transfer of "antibodies".
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Fludrocortisone is a steroid hormone used to treat disease. Which of the following most likely occurs when it encounters a target cell? It interacts with a G-protein coupled receptor in the plasma membrane of the target cell. It binds to protein receptors on the presynaptic membrane, increasing the firing rate of action potentials. It diffuses through the cell membrane and binds to receptors in the cytoplasm or nucleus. It binds to a receptor on the cell membrane and triggers a signal transduction pathway.
With Addison's disease, a chronic condition in which your body produces insufficient steroid hormones, fludrocortisone is used to treat the symptoms.
What are some Fludrocortisone drug adverse effects?Because your body lacks the steroid hormone, fludrocortisone, a corticosteroid, is used to make it. When the adrenal glands—which generate steroid hormones—are not functioning regularly, corticosteroids—medications that operate similarly to steroid hormones—are administered to supplement the body's own production.Water retention and weight gain are a couple of the probable side effects.Alterations in the salt content in your bodyHigher blood pressureFatigued or experiencing muscle weakness (if you have been using the medication for a long period of time)A feeling of nauseaHeadachemore easily getting bruisedIf any of these side effects occur, please let your doctor know.If you have mood swings (regularly shifting emotions), low mood, depression, anxiety, or any other changes in your mood while taking this medicine, please contact your doctor right once.To Learn more About steroid hormones refer to:
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an experiment was set up so that each test tube contained water at a ph of 6.3 and a ph indicator. test tubes 1 and 2 also contained a common pond autotroph. carbon dioxide dissolves in water and forms carbonic acid. after three days the four test tubes were found to have these results.
This experiment is a demonstration of the effects of carbon dioxide on the pH of water. Test tube 1 and 2 contained a common pond autotroph, while test tubes 3 and 4 did not.
By introducing a carbon dioxide source, such as the autotroph, it was possible to observe the effect of an increase in carbon dioxide in the water on the pH of the water.
The results of this experiment show that the presence of the autotroph in test tubes 1 and 2 influenced the pH of the water in those test tubes. Test tubes 1 and 2 both had a pH of 7.1 after three days, while test tubes 3 and 4 had a pH of 6.3. This indicates that the autotroph was able to produce carbon dioxide, which dissolved in the water and caused the pH to rise.
This experiment illustrates the importance of carbon dioxide in the aquatic environment. Carbon dioxide is a major component of the carbon cycle, which is responsible for all the life sustaining processes on Earth. By introducing a carbon dioxide source, such as an autotroph, into the water it is possible to observe the effects of carbon dioxide on the aquatic environment.
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Which of the following statements best summarizes the function of G protein-coupled receptors?A signal present on the outside of the cell leads to a change on the inside of the cell.
The correct option is B ; , A signal present on the outside of the cell leads to a change on the inside of the cell. G-protein coupled receptors transmit signals via heterotrimeric G-proteins.
These G-proteins are made up of three subunits (alpha, beta, gamma) of which only the alpha subunit binds guanine nucleotides. regulate the "state" of the G-protein by raising the rate of GTP hydrolysis. Inactivation of the drive.
Receptors are usually transmembrane proteins that bind to signaling molecules outside the cell and then convey the signal to internal signaling pathways via a series of molecular switches.
G protein-coupled receptors (GPCRs) are involved in the perception of vision, smell, taste, and pain. They are also important in cell identification and communication activities, making them a popular pharmacological target superfamily.
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Full Question ;
Which of the following statements best summarizes the function of G protein-coupled receptors?
Choice A., A G protein present on the outside of the cell leads to a change on the inside of the cell.
Choice B., A signal present on the outside of the cell leads to a change on the inside of the cell.
Choice C., A signal molecule on the outside of the cell is transported to the inside of the cell.
Choice D., A GTP molecule is bound to the receptor, which causes a conformational change inside the cell.
According to theory, the unconscious mind must be exposed to understand personality.
Answer:
psychoanalytic
Explanation:
According to psychoanalytic theory, the unconscious mind must be exposed to understand personality.
Drag each of the terrestrial blome names or descriptions, listed below on the left into its correct position on the graph.
There are eight main terrestrial biomes: temperate grasslands, temperate forests, boreal forests, Arctic tundra, and tropical rainforests, savannas, subtropical deserts, and chaparral.
What are biome?
Large-scale habitats known as biomes can be identified by their distinctive temperature ranges and precipitation rates. The kinds of vegetation and animal life that can exist in those locations are influenced by these two factors. The same biome can exist in physically separate regions with similar climates because each biome is characterized by climate.
The biome of a region can also be influenced by patterns in average annual precipitation and temperature, as well as by elements of geography, geology, soil types, disturbances, and terrain. a diverse range of living things call it home. Humans have an impact on both the biodiversity of creatures that live in each biome and the biomes themselves.
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what type of cell would affect the organism's offspring if a mutation occurred
Answer:
Read below
Explanation:
If a mutation occurs in a germ cell, it can be passed on to an organism's offspring. Germ cells are reproductive cells, such as eggs and sperm, that are involved in sexual reproduction.
Because these cells are involved in the creation of a new organism, any mutations that occur in them can be inherited by the organism's offspring.
By contrast, mutations that occur in somatic cells, which make up the majority of the cells in an organism's body, are not typically passed on to offspring. Instead, they affect only the individual organism in which they occur.
If a cell has 8 chromosomes, how many chromosomes will each of its dauchter cells have after evtokinesis?
Answer: Also 8
Explanation:
Okay, so the parent cell has eight chrome zone chromosomes. Therefore each daughter cell will also have eight chromosomes because of mitosis.
Answer: 8 daughter cells
Explanation:
Each daughter cell will have 8 chromosomes. That is correct. By the end of mitosis, there are two daughter cells. Each daughter cell will have the same amount of genetic material as the parent – 8 chromosomes.
The endocrine system regulates physiological processes through the binding of hormones to ______ on target cells. Receptors.
The correct answer is Receptors.The endocrine system regulates physiological processes through the binding of hormones.
Hormones are used by the endocrine system to regulate bodily processes. Hormones control a variety of internal processes, including metabolism, growth, sexual development, and labour induction. They go through the circulation, attach to certain cells, and modify the way that various tissues and organs operate. Hypothalamus: Your brain has a gland that regulates your endocrine system. It makes decisions about when to signal other glands, such as the pituitary gland, to release hormones based on input from your brain system. The hormones are released from the carrier protein at the target cell and diffuse through the lipid bilayer of the cell's plasma membrane. The target cell's plasma membrane allows steroid hormones to enter and stick to intracellular receptors in the cytoplasm or nucleus.
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As compared to agricultural variety, monoculture farminga. is better able to provide a range of nutrients, phytochemicals, and types of dietary fiber.b. requires a lighter application of pesticides.c. requires a heavier application of fertilizers.d. decreases a region's vulnerability to food shortages during heat waves, droughts, and floods.
Decreases a region's vulnerability to food shortages during heat waves, droughts, and floods. so the correct option is D
Food shortages occur when there is an inadequate supply of food for an entire population or for certain individuals or groups within a population. This can be the result of natural disasters, war, drought, over-fishing, or other environmental factors. It can also be caused by economic factors, such as rising prices, inflation, or poverty. When food shortages occur, people often have to reduce the amount of food they consume, resort to eating food of lower quality, or even go without food altogether. The consequences of food shortages vary, but can include malnutrition, increased risk of disease, starvation, and even death.
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Marijuana is an accepted medical treatment for the nausea and vomiting associated with chemotherapies.
Numerous small studies have demonstrated that smoking marijuana helps to reduce nausea and vomiting brought on by cancer chemotherapy.
Several studies have shown that marijuana can be smoked or vaporized to reduce neuropathic pain (pain caused by damaged nerves).
Marijuana use enhances food intake in HIV patients, according to studies. There are no studies on the effects of hemp or marijuana oil on people. Studies have long shown that patients who ingested marijuana extracts during clinical trials tended to use painkillers less frequently.
More recently, scientists found that THC and other cannabinoids like CBD destroyed or reduced the growth of several cancer cells growing in test dishes. According to several animal studies, some cannabinoids may inhibit the growth and spread of various malignancies. There have been preliminary clinical trials using cannabis to treat human cancer, and additional studies will likely follow.
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Can you please help me
The number of nutrients reduces as you dig deeper in a hole in the ground, as seen by the example.
A is the ideal answer.
If I were to drill a hole through the Earth, where would I go?You could travel from Argentina to China or Spain to New Zealand, but Greenland to Antarctica might be your best bet. All of this is possible because Earth is a spherical, which means that if you dig straight down in the northern hemisphere, you will end up just as far from the equator in the southern hemisphere.
What results from drilling through through the Earth?Without the Coriolis Effect, gravity would pull you down just as it would if you leaped out of a skyscraper, bridge, or other elevated platform. And since there was nothing to slow you down, you soon reached a speed of 6 miles per second. Yikes.
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Which of the following does NOT tend to promote speciation? a. founder effect b. reproductive isolation e natural selection d. gene flow
Gene flow among these won't lead to association, therefore. Gene flow is the right response, so.
The Correct Answer is Option D.
What is Gene Flow?Any movement of people from one group to another—also known as migration—and/or the genetic material they carry is referred to as gene flow. Pollen being carried to a new location by the wind or individuals relocating to new cities or nations are just a few examples of the many different types of events that contribute to gene flow. Gene flow can be a major source of genetic variation if genetic variants are transferred to a population where they previously were not present. A beetle transports the gene variant for brown coloration from one group to another in the illustration below.Gene flow has significantly altered the genetic variety in contemporary human groups. For instance, using ancient DNA sequencing, scientists were able to rebuild the entire Neanderthal genome. They also discovered that many of these ancient sequence snippets still exist in modern people. It is undeniable that early humans interbred with Neanderthals, and that this genetic diversity was transmitted to the human population. The current us appears to be influenced by this old gene flow, too. Neanderthal gene variants have been connected to skin color, immunological and metabolic processes (which can affect one's chance of acquiring diabetes), and even metabolic processes.To Learn more About Gene flow refer to:
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which of the following is a characteristic of mitochondria and chloroplasts that supports the endosymbiotic theory?
The characteristic of the mitochondria and chloroplasts that supports the endosymbiotic theory is that both have their own DNA.
What is the endosymbiotic theory?The endosymbiotic theory is a theory that postulates that eukaryotic organelles such as mitochondria and chloroplasts were once independent prokaryotic cells.
Both organelles evolved by endosymbiosis with prokaryotic bacteria to become part of the eukaryotic cell. Mitochondria were postulated to have been formed when bacteria capable of aerobic respiration were ingested.
On the other hand, chloroplasts were postulated to have been formed when photosynthetic bacteria were ingested. Both eventually lost their cell walls and a large percentage of their genetic materials due to natural selection.
The evidence supporting this theory are many. Some of them include the following:
Both are of the same size as prokaryotic cells and capable of dividing by binary fission.Both have their own DNA which is circular like that o prokaryotic cells.Both have their own ribosomes which are similar to that of prokaryotic cellsThus, the evidence that supports the endosymbiotic theory of mitochondria and chloroplasts among the option would be both having their own DNA.
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which of the following is a characteristic of mitochondria and chloroplasts that supports the endosymbiotic theory?
Both have bacteria-like polysaccharide cell walls
Both can reproduce on their own outside of the cell.
Both contain DNA molecules.
Both contain endoplasmic reticulum and Golgi bodies.
Both contain ribosomes that are identical to ribosomes of the eukaryotic cytoplasm
Which of the following, if true, would most challenge the researchers' conclusions regarding the identity of the genetic material involved in the experiment? (P and S were radiolabeled)
A. Transfer of DNA between phage and bacteria did not occur immediately following insertion of the virus.
B. No 32P was identified in the genetic material of infected step 3 bacteria following bacterial lysis and release of phage virions.
C. 35S-containing coat fragments from phage progeny adsorb to bacteria, although the fragments contain no DNA.
D. Protein which happened not to pick up the 35S label entered the cell from the phage.
No 32P was identified in the genetic material of infected step 3 bacteria following bacterial lysis and release of phage virions is the following, if true, would most challenge the researchers' conclusions regarding the identity of the genetic material involved in the experiment.
This answer would challenge the researchers' conclusions regarding the identity of the genetic material involved in the experiment, because 32P was radiolabeled and should have been present in the genetic material. If no 32P was identified, then the researchers would have to reconsider the identity of the genetic material involved in the experiment.
Genetic material is the genetic information found in the cells of an organism. It is made up of DNA and RNA molecules, which carry the instructions needed for the organism to grow and develop. Genetic material is passed from parent to offspring, and it determines the characteristics of the offspring. Changes in the genetic material can result in different traits in the offspring, or even new species.
DNA (Deoxyribonucleic acid) is the molecule that stores genetic information in all living things. It is composed of two strands of nucleotides twisted into a double helix. Each nucleotide consists of a nitrogenous base, a five-carbon sugar, and a phosphate group. The four nitrogenous bases found in DNA are adenine (A), thymine (T), guanine (G), and cytosine (C). The sequence of these bases forms a code that carries instructions for the cell’s growth and development.
RNA (Ribonucleic acid) is a single-stranded molecule that is similar to DNA. It is composed of nucleotides with three nitrogenous bases: adenine (A), guanine (G), and uracil (U), and a sugar called ribose. RNA is involved in the production of proteins, and it is often referred to as the “messenger” molecule because it transfers genetic information from DNA to the ribosome, where proteins are made. Unlike DNA, RNA is not double-stranded and can exist as single strands.
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Which structure is highlighted? a) basilar membrane b) spiral ganglion c) tectorial membrane d) outer hair cells e) vestibular membrane
The correct answer is c) tectorial membrane structure is highlighted.
The basilar membrane is a long membrane that is tuned so that high tones shake the area close to the base and low tones vibrate the area close to the apex. The organ of Corti, which consists of a collection of hair cells with stereocilia that... The Organ of Corti is a structure made up of the basilar membrane, hair cells/cilia, and tectorial membrane. Endolymph surrounds this entire structure (the fluid found deep within the ear). The brain receives a sound-detection signal from the hair cells as a result of this movement.
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true or false : It's difficult to determine the source of variation in humans because parents and offspring can share traits because of shared genes, shared environment, or shared culture.
True
Determining the cause of human variation can be difficult because there are several factors that can influence an individual's traits and characteristics.
These factors include genetics (i.e. the genes a person inherits from their parents), environment (i.e. the social and physical environment in which a person is raised), and culture (i.e. shared beliefs, values, habits) included. by a group of people).
All of these factors can contribute to the variability seen among people, and it can be difficult to elucidate their relative contributions.
Genetics play a role in determining an individual's traits and characteristics, as genes provide instructions for the development and function of the body's cells, tissues, and organs. For example, genetics can influence a person's physical characteristics such as height, eye color, facial features, and risk of certain diseases and conditions.
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The _________________ of probability tells that to determine the chances of independent events, such as the likelihood of inheriting a certain allele, probabilities are multiplied.
Choose matching definition
a. segregation
b. easy to grow, had a shortgeneration time, and produced multiple offspring.
c. product rule
d. sum rule
Segregation is the answer. According to the segregation of probability, probabilities are multiplied in order to calculate the chances of independent events, such as the possibility of inheriting a specific allele.
The Principle of Segregation explains how reproductive cells are divided into pairs of gene variants. Gregor Mendel made the first observation of the segregation of alleles, or gene variants, and the traits they are associated with, in 1865. Mendel conducted mating crosses on pea plants while researching genetics. Genes exist in several forms or alleles. A single gene copy is randomly selected in each gamete that an organism produces. The segregation law is what is known as this.
As a result, segregation is the solution. The segregation of probability states that probabilities are multiplied to determine the likelihood of independent events, such as the potential for inheriting a certain gene.
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