Considering the knowledge gained in genetic engineering, would you try to patronice GO
fruits and vegetables? Why or not?
Answers
The knowledge of genetic engineering can be used on fruits and vegetables.
Yes, I will use the technique of genetic engineering on fruits and vegetables in order to make the fruits and vegetables disease and pest resistance. There are many varieties which can are produced by using the technique of genetic engineering.
Increased crop yields, reduced costs for food and need for pesticides, enhanced nutrient composition and food quality, resistance to pests and disease, greater food security, and medical benefits are the benefits which can be achieved through genetic engineering in agriculture sector so in my opinion the knowledge of genetic engineering can be used on fruits and vegetables.
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Related Questions
Consciously or unconsciously attending to only a narrow range of the full array of sensory information available and ignoring the remainder.
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Selective attention will refers to paying attention to only a portion of the whole range of perceptual data which exists while disregarding the remainder.
Organizations come in a variety of forms, which including categorization as well as cognitive models.
Ethnocentrism is the inclination to hold your own tribe to a higher standard than all others. You have a mental road plan that directs how you greet and to introduce oneself to a new person when you will first meet them. The term "cognitive representations" will refers to these visual representations.
As we watch an episode, frames help us focus on certain aspects while avoiding others. (For instance, a foul attitude will lead you to concentrate on the flaws.)
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--The given question is incomplete, the complete question is
"Consciously or unconsciously, we attend to just an arrow range of the full array of sensory information available and ignore the remainder."--
please help asap ill give that brain thing if you give a correct answer tysm
Answers
Answer:
increase temperature
Explanation:
The complex of snRNPs and other proteins responsible for splicing is known as the {{c1::spliceosome}}
Answers
The spliceosome is a complex of snRNPs and other proteins responsible for the splicing of pre-mRNA. It is composed of small nuclear ribonucleoproteins (snRNPs) and a variety of other proteins.
During pre-mRNA splicing, the spliceosome is formed by the assembly of snRNPs and other proteins on the pre-mRNA sequence. The snRNPs recognize the pre-mRNA sequence and the other proteins provide a scaffold to bring the snRNPs together.
The spliceosome then catalyzes the removal of the intron sequences and ligates the exon sequences together, resulting in the mature mRNA. The spliceosome is thus essential for the efficient processing of pre-mRNA in the nucleus, and its activity is tightly regulated.
Finally, the spliceosome is capable of recognizing different classes of introns, allowing it to be used in a variety of cellular processes.
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In the 1930s, Ralph Metcalfe was known as the fastest human in the world. He was born on May 29, 1910, in Atlanta, Georgia. When he was in high school, he rose to fame as a track athlete. He won four Olympic medals: one gold medal, two silver medals, and one bronze medal. He won the gold medal for the 4x100 meter relay at the 1936 Berlin Summer Olympics. A rock to his fellow athletes, Metcalfe helped his teammates overcome the challenges they faced at the 1936 Summer Olympics. He retired from sports in 1936, but his passion for sports led him to coach students for ten years at Xavier University in New Orleans. Between 1949 and 1952, he was the head of the Illinois State Athletic Commission. Metcalfe served as a US Congressman from 1971-1978. Even today, he is a great inspiration to athletes all over the word. Which detail best conveys the author's perspective about the topic?
Answers
Track and field runner and lawmaker Ralph Harold Metcalfe Sr. was an American who lived from May 29, 1910, to October 10, 1978.
Who is Metcalf track star?To the very end of his life, Metcalfe was adamant that he and Eddie Tolan should have shared the 100-meter victory as a tie:There ought to have been a draw." The data from the film and from race watchers appears to corroborate Metcalfe's conclusion.
Later, the AAU modified their regulations so that the winner was the first competitor to actually reach the finish line, not just breast the tape. Tolan was found to have made the latter decision first. The International Olympic Committee has never approved of this move, so the AAU went one step further and declared the event a tie.
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sunlight contains all the colors of the visible spectrum (red, orange, yellow, etc..) and pigments absorb certain colors of light in order to power photosynthesis. briefly explain what color of ight you think is least useful to a plant for use during photosynthesis
Answers
The color of light that least useful to a plant for use during photosynthesis is green. Because plant leaves are green, the wavelength of green light is probably the least useful. This would imply that green light used for photosynthesis is reflected rather than absorbed.
Despite being the visible spectrum's least effective wavelength for photosynthesis, green light is still helpful and affects plant architecture. One might occasionally hear that plants reflect green light rather than using it for photosynthesis. But this is only partially accurate. Because green light can reach deeper into leaves than red or blue light, it will have a greater impact on the photosynthesis of leaves when it is absorbed by the lower chloroplasts in strong white light.
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which of the following is not a major role of vitamin a? a. supports reproduction b. prevents acne c. active in vision d. regulates growth
Answers
Vitamin A does not regulate growth. (A)
Growth is instead regulated by hormones like insulin, testosterone, and estrogen. (A)
Vitamin A does play a major role in other areas of the body. It supports reproduction by helping to form and maintain reproductive organs, helps to prevent acne by controlling skin cells, and is active in vision by aiding the eyes in adjusting to light and color.
Vitamin A also helps to regulate gene expression, cell growth, and immune system functioning.
Overall, Vitamin A plays an important role in reproduction, acne prevention, vision, and gene expression. It does not, however, regulate growth.
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In which order do the events of antidiuretic hormone (ADH) secretion stimulated by plasma osmolarity occur
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The order in which the ADH stimulated by plasma osmolarity occurs is:
an increase in plasma osmolarity, activation of osmoreceptor, release of ADH, reabsorption of water.
The antidiuretic hormone (ADH) is responsible for the homeostatic valance and increase in blood's volume. The activation of this hormone and how it works is as follows:
There is a low concentration of water in the body, which decreases the extracellular fluid.The decrease in the extracellular fluid results in a reduction of the plasma osmolarity, in other words, the blood volume is reduced.As a consequence, the osmoreceptors in the hypothalamus, kidneys, and carotid detect the high concentration of solutes. The hypothalamus releases ADH.The hormone travels through the blood to the kidney. There, it stimulates the reabsorption of water and reduces urine production.The body is hydrated again.
To sum up, the body detects a high concentration of solutes due to a loss of water. Then it releases ADH; as a consequence, the kidneys reabsorb water till the osmolarity decreases.
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Trace the pathway a drop of blood would take from the time it leaves the aorta, to the time it returns to the left ventricle ready to leave the aorta again, describing the chambers and vessels
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A drop of blood would leave the aorta and travel to the systemic circulation, where it would enter the body's tissues to deliver oxygen and nutrients.
What is systemic circulation?All body tissue has a functional blood supply thanks to the systemic circulation. It transports nutrients and oxygen to the cells as well as waste products and carbon dioxide.
The arterial system, which consists of bigger arteries that divide into smaller arterioles, is where blood would first enter from the aorta.
A drop of blood would go through the systemic circulation, the arterial system, capillaries, the venous system, the right atrium, the right ventricle, the lungs, the left atrium, and the left ventricle before returning to the left ventricle and being prepared to leave the aorta once more.
Thus, this is the pathway a drop of that blood would take from the time it leaves the aorta.
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A couple has five children with all blood type a. The mothers blood type is O and the fathers blood type is a
Answers
Answer:
idk
Explanation:
my bad I don't know it
Cod has been a commercially important fish species since____.
a. the 13th century
b. the discovery of North America
c. the 1960's
d. the 1980's
Answers
Cod has been a commercially important fish species since The 13th Century
Answer:
a. the 13th century
Explanation:
just did it
dna complementary strands pair up with a purine/pyrimidine pair. an 'a' on one strand will pair up with a ____ on the other strand.
Answers
The term that completes the given question "DNA complementary strands pair up with a purine/pyrimidine pair. An 'A' on one strand will pair up with a DNA on the other strand" is 'T'.
The two strands of DNA molecule run antiparallel, and each strand has a backbone composed of alternating sugar and phosphate groups. The two nitrogenous bases in DNA that are purines are adenine and guanine, while the two pyrimidines are cytosine and thymine.
A purine/pyrimidine pair, also known as a base pair, forms when a nitrogenous base from one strand of DNA binds to a complementary nitrogenous base from the other strand of DNA. Adenine and guanine are purines, while cytosine and thymine are pyrimidines. Thus, an 'A' on one strand will pair up with a 'T' on the other strand.
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which two lables should be swiched
Answers
Answer:
c; asthenosphere and crust
Explanation:
the crust is under the asthenosphere and much thinner than the asthenosphere
other than that everything else is correct
ocean water contains all of the following elements except.
Answers
Answer:
Chemical and physical properties of seawater
The six most abundant ions of seawater are chloride (Cl−), sodium (Na+), sulfate (SO24−), magnesium (Mg2+), calcium (Ca2+), and potassium (K+). By weight these ions make up about 99 percent of all sea salts.
How are the processes of asexual reproduction and sexual reproduction different? Select three options. In both processes, all offspring have identical DNA. They involve a different number of parents. Only one process involves sperm and eggs. Only one process involves meiosis. Only one process involves cell division.
Answers
Answer:2,3,4
Explanation:just took the test
Answer:
It’s is 2 3 4
Explanation:
It’s right on edge
How is a viral reproduction different from the reproduction of a living cell?
Answers
What are the parts of an atom and their characteristics?
Answers
Answer:
An atom has all of the characteristics of an element, parts are neutrons, protons, electrons
The Tibetans and Han Chinese share several genetic traits and DNA. However, the EPAS1 gene, which increases the ability of red blood cells to carry oxygen even in low oxygen environments, is only commonly found in the Tibetan population that live in higher elevations. Explain why this gene is only common in Tibetan populations from the perspective of competitive advantage and natural selection. Write your answer in three to five sentences.(4 points)
Answers
Answer:
When in higher altitudes, ticker blond has a tendency to cause problems like heart attack's, however the Tibetans have adapted to the high altitudes and this has made their blood thinner in order to keep them safe in the altitudes, including that it has low oxygen rates in the altitude therefore providing more oxygen in the bloods cells.
Explanation:
:D It's not my best explanation but I hope this helps <3.
Owing to the fact that ability of the redblood cells to to carry oxygen even in low oxygen environments is neccessary at high elevations, the Tibetan population that live in higher elevations are found to possess the EPAS1 gene.
What is natural selection?The term natural selection refers to the fact that organisms that are better adapted to their habitat will live longer and reproduce. Now we have to note that owing to the elevation at which they live, the people that possess this EPAS1 gene can cope with oxygen stress that could likely occur at a high altitude.
As such, the Tibetan population that live in higher elevations are found to possess the EPAS1 gene.
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Some species of flowers have markings that are visible only to insects with the ability to see ultraviolet light waves. These markings help the plants -
A. avoid parasitic insects
B. attract pollen-gathering insects
C. seek out moisture in the soil
D. create a strong scent to attract bats
Answers
Answer:
B. attract pollen-gathering insects
Some flower species have marks visible only to insects with the ability to see waves of ultraviolet light, to attract pollen-gathering insects.
How do insects see flowers?Ultraviolet flowering photography gives us a hint of what flowers look like to pollinators. Insects see the world very differently than humans do. They can't see red light like we can, but they can see ultraviolet wavelengths invisible to the human eye.
With this information, we can conclude that some flower species have marks visible only to insects with the ability to see waves of ultraviolet light, to attract pollen-gathering insects.
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Please help me someone help
Answers
Answer: I think that it would be C but I'm not completely positive :) either way, I hope this can help out on whatever you're working on
Why was disc E soaked in water?
Answers
Since water will not inhibit bacteria growth, the varying effectiveness of the antibiotics can be observed and compared
suppose that species i in the figure has 2=102n=10 and species ii has 2=12.2n=12. how many chromosomes would be present in the allotetraploid in the figure?
Answers
The allotetraploid would have 10 + 12 = 22 chromosomes in its set, and being tetraploid, it would have a total of 4n = 4 x 22 = 88 chromosomes.
If species i has 2=102n=10 chromosomes and species ii has 2=12.2n=12 chromosomes, then the allotetraploid (which is a hybrid of these two species) would have a total of 2n = 2(10+12) = 44 chromosomes. Since it is an allotetraploid, it would have two complete sets of chromosomes from each of its parent species, resulting in a total of 4 sets of chromosomes or a tetraploid.
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will give 15 points and brainliest just awnser like
1.ghkdigh
2.ighdf
3.ygf
and so on thanks!
Answers
Answer:
1.Law of conservation of energy
2. Energy transformation
3.Friction
4. electric, thermal
5. Kinetic, Potential
6. Potential, Kinetic
7.Kinetic
8.Radiant, electrical
9. Electrical
10. Radiant
A plant that grows towards light shows which of the following
Answers
A plant that grows toward light shows a mechanism known as Phototropism.
What is Phototropism?Phototropism may be defined as the tropic movement of plants in response to light. In this case, light functions as a stimulus, and the plant expresses growth movement in the direction of the stimulus, that is light. Phototropism is exhibited due to auxin which is a plant growth hormone.
Basically, the shoot of plants exhibits positive phototropism as it grows in the direction of light. It is one of the many plant tropisms or movements which respond to external stimuli. Growth towards a light source is called positive phototropism, while growth away from light is called negative phototropism.
Therefore, a plant that grows toward light shows a mechanism known as Phototropism.
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according to sheldon, each body characteristic reflects
Answers
Answer:The TV character Sheldon from "The Big Bang Theory" had a belief that each person's body type is linked to a specific personality type. He classified people into three categories: ectomorphs, mesomorphs, and endomorphs, and believed that each body type was associated with specific personality traits. However, there is no scientific evidence to support Sheldon's beliefs.
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Pour water into a large metal bowl.Put the bowl in the freezer .Wait two hours and observe the bowl. Describe the formation of ice in the bowl in your observation area.
Answers
Answer:
Solid with air bubbles?
Explanation:
assuming that you are expected to but your bowl of water in the freezer flat or you decide to, It most likely is going to be a solid block of ice with a few air bubbles in it just like if you were to freeze water standing up it would have little to no air bubbles in it.
how do the respiratory and circulatory systems work together to maintain homeostasis
Answers
A specific type of cell is being studied by a scientist. She notices the cell contains a nucleus, lysosomes, a cell membrane and cell wall. What is the correct classification of this cell?
A prokaryotic animal cell
B. A prokaryotic plant cell
C. A eukaryotic animal cell
D. A eukaryotic plant cell
Answers
DNA- TAC ACC ACA GTG
mRNA- ?
Answers
Each of the following factors will increase cardiac output except one. Identify the exception.A.increased venous return.B.increased parasympathetic stimulation.C.increased force of ventricular contraction.D.increased heart rate.E.increased sympathetic stimulation.
Answers
The exception that does not increase cardiac output among the given factors is B. increased parasympathetic stimulation.
Cardiac output is the volume of blood pumped by the heart per unit of time and is determined by the heart rate and stroke volume. The factors that increase cardiac output are those that increase either heart rate or stroke volume.
A. Increased venous return increases cardiac output as it leads to a higher volume of blood being returned to the heart, which in turn increases stroke volume.
C. Increased force of ventricular contraction increases stroke volume, thus increasing cardiac output.
D. Increased heart rate increases the number of times the heart contracts in a minute, resulting in a higher cardiac output.
E. Increased sympathetic stimulation, which is associated with the "fight or flight" response, leads to increased heart rate and stroke volume, thus increasing cardiac output.
However, B. increased parasympathetic stimulation has the opposite effect. Parasympathetic stimulation, which is associated with the "rest and digest" response, slows down heart rate and decreases stroke volume, ultimately reducing cardiac output.
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Increased parasympathetic stimulation is the factor that would not increase cardiac output. While increased heart rate, force of ventricular contraction, venous return, and sympathetic stimulation increase cardiac output, parasympathetic stimulation typically decreases it.
Explanation:The exception that would not increase cardiac output among the options provided is increased parasympathetic stimulation. Cardiac output describes how much blood the heart is pumping. This is impacted by factors such as heart rate, the force of ventricular contraction, and the volume of blood returned to the heart (venous return). Sympathetic stimulation causes an increase in these factors, thereby increasing cardiac output. However, parasympathetic stimulation, which is essentially the body's 'rest and digest' response, typically acts in opposition to sympathetic stimulation. It tends to decrease heart rate and the force of ventricular contraction, thereby usually decreasing cardiac output. So, while increased venous return, increased force of ventricular contraction, increased heart rate, and increased sympathetic stimulation would all typically lead to increased cardiac output, increased parasympathetic stimulation would not.
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the fluid portion of a cell's aqueous (water-based) contents between the plasma membrane and nuclear membrane is called
Answers
The cytoplasm, which is composed of water, proteins, lipids, nucleic acids, inorganic salts, and other substances, is the gel-like material encased within the cell membrane.
The cytoplasm is the jelly-like substance that lies between the nuclear membrane and the plasma membrane. In a membrane bilayer, the hydrophilic heads of the phospholipids face outward, making contact with the aqueous (watery) fluid both inside and outside the cell.
Cytoplasm, also known as the nonnuclear content of protoplasm, is the semifluid component of a cell that is both internal to and exterior to the nuclear membrane. All of the organelles in eukaryotes (cells with a nucleus) are found in the cytoplasm.
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