The organelle in which photosynthesis occurs is called the chloroplast.
Chloroplasts are membrane-bound organelles found in plant cells and some other eukaryotic organisms, such as algae.
The primary function of chloroplasts is to carry out photosynthesis, a process by which light energy from the sun is converted into chemical energy in the form of organic molecules, such as glucose. Chloroplasts contain the pigment chlorophyll, which absorbs light energy and converts it into chemical energy that can be used to drive photosynthesis.
Chloroplasts are unique organelles in that they have their own DNA and ribosomes, which allows them to carry out some of their own protein synthesis. This is thought to be a result of the endosymbiotic theory, which proposes that chloroplasts evolved from free-living photosynthetic bacteria that were engulfed by ancestral eukaryotic cells and eventually evolved into a symbiotic relationship with their host cell.
In summary, the chloroplast is the organelle where photosynthesis occurs, and it is a crucial component of plant and algal cells.
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What reason BEST explains why more people get colds in colder temperatures?
A. Viruses need colder temperatures to survive.
B. Viruses need colder temperatures to infect people.
C. Colder temperatures lower a person's body temperature.
D. Colder temperatures cause people to stay inside, closer together.
An explanation for why people are more susceptible to upper respiratory infections in colder climates is that cold temperatures cause a reduction in the immune response induced by cells in the nasal cavity to viruses. Millions of individuals in the United States alone suffer the common cold every year.
according to the Centres for Disease Control and Prevention (CDC)Trusted Source. Adults often have two to three colds per year. The common cold is often brought on by viruses. About half of all colds and cold-like diseases are caused by rhinoviruses, which are also the most frequent cause of these disorders. Rhinoviruses primarily spread from person to person or by breathing in tiny airborne droplets. Aerosols are a common term for these droplets. The rhinovirus attaches itself to the cells after being breathed.
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every biomolecule featured in this video contains what element?
All biological molecules were organic molecules, which means they all include carbon atoms. Include polysaccharides, nucleic, lipids, carbohydrates, proteins, and amino acids.
What exactly are biomolecules and what do they do?Biomolecules are organic molecules that are made up of lipids, proteins, carbohydrates, and nucleic acids. For live cells to survive, they are crucial. There is a high demand for several biological macromolecules that cannot be satisfied by their renewable supplies.
What is a brief explanation of a biomolecule?A chemical substance that is present in living things is called a biomolecule. These consist mostly of substances with the chemical elements carbon, gas, oxygen, nitrogen, sulfur, and phosphorus. The foundation of life, biomolecules serve crucial roles in all living things.
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the melanocytes responsible for fur pigmentation in dogs originate as precursor cells called melanoblasts found in which area of the embryo?
The fur of a dog will have white patches if cells called melanocytes do not produce the pigment melanin.
Your body contains melanin, which is responsible for the color of your skin, eyes, and eyebrows. The darker your eyes, hair, and skin will be the more melanin you will create. The amount of melanin in your body relies on a variety of factors, including how features are passed on from parents to children and how many stars in your family tree were involved. If the mentioned containers do not manufacture the pigment melanin, a dog's jacket will have silvery spots. The CcPp plant exhibits complementation, demonstrating that the genes involved in the mutations preventing color in the silver plants are unaffected. Due to a specific deoxyribonucleic acid primary allele, corn kernels can have a lilac tint.
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Which of the following types of organelle is most important in providing a cell with energy?
A.
mitochondria
B.
nuclei
C.
cell membranes
Answer: A-: Mitochondria
Explanation: It is also known as powerhouse of the cell. It produces ATP (Adenosine triphosphate). Mitochondria is having double layer of cell membrane enclosing the cytoplasm.
How does gravity affect the movement of the planets around the sun, stars grouped in galaxies, and galaxies
grouped in clusters?
Thoroughly explain your answer, making sure to include an example and describe how this force keeps planets in
orbit. Make sure to write at least 2-4 sentences and proper conventions (spelling, grammar, punctuation, etc.) to
respond. Put all answers in your own words.
Plss I need the answer fasttt!
Gravity affects the movement of the planets around the sun, stars grouped in galaxies, and galaxies grouped in clusters by ensuring that they are drawn towards the center.
What is Gravity?This is referred to as a fundamental interaction which causes mutual attraction between all things with mass or energy ad it draws objects towards its center.
Gravity which is a type of force by which a planet or other body draws objects toward its center and it helps to keeps all of the planets in orbit around the sun and prevent collision between the bodies thereby making it the correct choice.
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What is present in plant cells only?
There are a number of organelles that are exclusively or mostly found in plant cells. The organelles in which photosynthesis occurs are called chloroplasts. Green pigment chlorophyll, which is present in chloroplasts, enables them to absorb light energy and transform it into chemical energy.
Cell wall- The hard cell wall that surrounds plant cells is constructed from cellulose, hemicellulose, and other polysaccharides.
Huge central vacuole- The majority of the space inside plant cells is taken up by a large central vacuole. Water, nutrients, and waste materials are present in the vacuole, which also contributes to the regulation of the internal environment of the cell.
The interchange of tiny molecules like ions and carbohydrates between neighboring plant cells is made possible by a structure called a plasmodesmata, which connects the cells.
Starch grains- Plant cells frequently store extra glucose in starch grains, which may be digested when needed to provide energy.
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Why cartilage repairs slowly after adolescence?
Due to its avascularity and less ordered microarchitecture than bone, cartilage is a flexible connective tissue that differs from bone in a number of ways.
The chondrocytes are dispersed and fixedly positioned within a matrix that is held together by collagen and elastic fibres. Due to the lack of innervation, diffusion is the only way for nutrients to reach the cartilage. It recovers quite slowly as a result of this. Chondrocytes, chondroitin sulphate, the ground material, and perichondrium, the fibrous sheath, are the three main cell types in cartilage.
The process of chondrogenesis is used to create cartilage from the mesoderm germ layer. The cells that secrete the majority of the extracellular matrix's constituents are chondroblasts, which are formed when mesenchyme undergoes differentiation. In order for cartilage to form, aggrecan and type II collagen are the most crucial of these elements.
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1. A single fertilized egg divides into many separate embryos is known as
Metamorphosis
Polygyny
Polyembryony
Viviparous
Polyembryony is the process through which a single fertilized egg differentiates into multiple distinct embryos.
Definition of PolyembryonyA single fertilized egg can create several embryos in a process called polyembryony. In addition to some vertebrates, such as chickens, lizards, and some mammals, it is present in a variety of invertebrates, including ants, bees, and termites. In polyembryony, the egg divides into several embryos without the help of sperm. Every embryo is a genetic clone of its parents and shares the same genes as the original egg.
A type of asexual reproduction called polyembryony occurs when an egg divides and produces multiple embryos. When an organism is short-lived or has little access to mates, parthenogenesis frequently takes place. Some species do so as a response to environmental change.
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What is shift in vaginal flora suggestive of?
A shift in vaginal flora is usually suggestive of an infection and should be diagnosed and treated by a healthcare physician.
A change in the populations of bacteria and other microorganisms that ordinarily exist in the vagina is referred to as a shift in vaginal flora.
It is usually accompanied with a rise in anaerobic bacteria and a reduction in "good" bacteria like Lactobacillus.
This change is frequently indicative of an infection, such as bacterial vaginosis, which is an imbalance in the typical vaginal environment that can cause itching, burning, and a fishy stench.
Any change in vaginal flora should be diagnosed and treated by a healthcare physician, since it can progress to additional issues, such as pelvic inflammatory disease, if left untreated.
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how does molecular biology support the theory of evolution?
Molecular biology focuses on nucleic acids and proteins and how these molecules interact and behave in cells. Molecular similarities provide evidence for a common ancestry of life by Comparing DNA sequences and representing how different species are related to each other.
What does molecular biology mean?Molecular biology is the branch of biology indicating the composition, structure, and interactions of cellular molecules such as nucleic acids and proteins that carry out biological processes essential to cell function and maintenance.
What are advantages of studying molecular biology?Molecular biology also plays an important role in understanding structure, function, and internal regulation within single cells. All of these can be used to efficiently target new drugs, diagnose disease, and better understand cell physiology.
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this week for experiment 1b (week 3) you will be picking colonies from your yeast transformations from last week and streaking them onto both sd-leu and sd-leu-his plates. this will enable you to determine whether your colonies have become auxotrophic for histidine biosynthesis (i.e., whether they are his- mutants). from the five transformations you performed last week, which one do you predict will have the lowest frequency of his- mutants? justify your answer.
The lowest number frequency of transformants should result from transformations 1 and 2, as expected. This is due to the presence of these two DNA mixtures.
To determine which of the five yeast transformations from last week will have the lowest frequency of his- mutants without additional information. Factors such as the method used for transformation, the efficiency of transformation, and the presence of any selective pressure during growth can all impact the frequency of his- mutants. Additionally, without information about the specific strains or plasmids used in the transformations, it is impossible to make any predictions about the likelihood of obtaining his- mutants. It would be best to perform the streaking and phenotypic analysis in order to determine the frequency of his- mutants in each of the transformations.
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which structure is highlighted marginal artery right circumflex artery right coronary artery left anterior descending artery left coronary artery
artery on the left side. A branch of the left circumflex artery, it can be discovered at the left AV sulcus. It heads for the top of the heart. the artery on the left that descends anteriorly.
Branches emerge from the left major coronary: The left coronary artery divides into the left anterior descending artery, which provides blood to the front of the left side of the heart. The left coronary artery's left circumflex branch surrounds the heart muscle. The left major coronary artery and the right coronary artery (RCA) are the two primary coronary arteries (LMCA). The aorta's root is the source of both of them. The right atrium and right ventricle are the primary recipients of blood from the RCA, which exits the anterior ascending aorta. Your left main coronary artery has two branches, the left anterior descending (LAD) artery being one of them. Anterior refers to an artery that feeds blood to your heart's front chambers. It is your heart's main source of oxygenated blood for the lower left ventricle, which pumps blood throughout your body.
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Please help me in your own words don’t copy off the internet
1) Anthropogenic activities have caused the amount of carbon in the atmosphere to increase considerably in the past century.
2) By reducing the use of the fossil fuels using alternative energy sources. The human impact on the carbon cycle can be curbed.
How does human beings affect the carbon cycle?Human activities have a significant impact on the carbon cycle, which is the flow of carbon through the Earth's atmosphere, oceans, and land. The carbon cycle plays a crucial role in regulating the Earth's climate, as it helps to balance the levels of carbon dioxide (CO2) and other greenhouse gases in the atmosphere.
Human activities have caused a significant increase in the amount of CO2 in the atmosphere, leading to changes in the carbon cycle
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how do you think your body prevents your cells from shrinking or swelling due to osmotic gradients across the plasma membrane?
Your body prevents your cells from shrinking or swelling due to osmotic gradients across the plasma membrane by maintaining a proper balance of water and solutes within the cells.
Body balance can be achieved through the process of osmoregulation, namely the process of regulating fluid concentration by balancing the intake and output of body fluids by cells. This involves the movement of water and plasma membrane solutes to maintain osmotic balance.
One way that osmoregulation is achieved is through the use of aquaporins, which are special proteins that allow water to pass through the plasma membrane more easily. This helps to maintain the proper balance of water within the cells. Another way that osmoregulation is achieved is through the use of ion channels, which allow ions to pass through the plasma membrane. This helps to maintain the proper balance of solutes within the cells. Overall, the process of osmoregulation is essential for maintaining the proper balance of water and solutes within the cells, which helps to prevent the cells from shrinking or swelling due to osmotic gradients across the plasma membrane.
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dual innervation means that an individual effector
False, Dual innervation refers to the phenomenon where an organ or tissue is innervated by both sympathetic and parasympathetic nervous systems.
This is common in many organs in the body, including the heart, lungs, and digestive system. The sympathetic and Dual innervation parasympathetic nervous systems have opposing effects on these organs, with the sympathetic system generally promoting activity and the parasympathetic system promoting relaxation. The balance between these two systems is important for maintaining homeostasis in the body. However, dual innervation does not refer to the innervation of an individual effector, but rather to the innervation of an organ or tissue by both sympathetic and parasympathetic nerves.
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The complete Question is:
Dual innervation means that an individual effector. True or false
A neat figure showing the method of identifying the medicines mixed in blood.
The explanation of the method for identifying medicines in blood is given below
How to identify medicine in bloodBlood serum analysis: Blood serum is the liquid portion of blood that is left after blood cells are removed. This liquid can be analyzed to determine the presence of certain medicines in the bloodstream.
Chromatography: Chromatography is a technique that separates different components of a mixture, such as medicines in blood, based on their physical and chemical properties. This allows for the identification of specific medicines in a sample.
Mass spectrometry: Mass spectrometry is a technique that measures the mass of particles in a sample, such as medicines in blood. This can be used to identify specific medicines in the sample.
Enzyme-linked immunosorbent assay (ELISA): ELISA is a method for detecting the presence of specific substances, such as medicines, in a sample by using antibodies that are specific for those substances.
These are just a few of the methods that can be used to identify medicines in blood. The specific method used will depend on the type of medicine being tested for and the sample being analyzed.
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What other types of evidence or features might be used to ascertain whether the tree of life is best represented according to the three-domain or the eocyte hypothesis? Select all that apply.
a. cell biology b. the type of chromatin organisation c. DNA sequence data d. the fossil record RNA structure data
Other types of evidence include data on DNA sequences, the fossil record, and cell biology.
Data from additional types of creatures, such as viruses and archaea, whose genomes have been sequenced, but which were not originally considered in the initial research that led to the tree of life hypothesis. To identify which theory best matches the evidence, statistical analyses of the new data are performed. In order to identify which of the several ideas is better in line with our present understanding of evolutionary biology, they should be compared. Comparison of the various hypothese to identify which is more economical and yields the most precise results. In order to identify which explanation best fits the fossil record, various ideas are compared. comparison of the many hypotheses to see which fits the genetic records of diverse animals the best.
The complete question is :
What other types of evidence or features might be used to ascertain whether the tree of life is best represented according to the three-domain or the eocyte hypothesis? Select all that apply.
a. cell biology
b. the type of chromatin organisation
c. DNA sequence data
d. the fossil record RNA structure data
e. the phylogenetic relationships between organisms
f. gene expression data
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how many reading frames are possible if this molecule is translated in a laboratory setting in which translation can be initiated anywhere along the molecule? how many reading frames are possible when this molecule is translated in a cellular environment? 3, 1 6, 1 3, 3 1, 3
There are three possible reading frames in a cellular environment.
A cell’s microenvironment includes the extracellular matrix; similar or dissimilar cells that surround another cell; different cytokines, hormones, and reactive species; local physical properties of a cell; the mechanical forces that are produced by the movement of molecular motors or fluids inside a cell.
A reading frame is a way of dividing a nucleotide sequence into consecutive triplets (codons) for translation into a polypeptide chain. In the laboratory setting, translation can be initiated anywhere along the molecule, so there are six possible reading frames. In a cellular environment, translation usually starts at the start codon (AUG) and continues until a stop codon is reached.
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Arrange the descriptions of the steps in RNA splicing in order from earliest to latest. 1. Exon ends are covalently joined together. II. Components of the spliceosome bind conserved regions in the intron and bring them together in close proximity III. Acceptor splice site is cut. IV Donor splice site is cut, and the end of the intron is joined covalently to the branch site. a) 3,1,2,4. b) 2,4,3,1. c) 3,4,1,2. d) 3,2,4,1. e) 2,3,1,4.
The correct sequence is B) 2,4,3,1. II. Components of the spliceosome bind conserved regions in the intron and bring them together in close proximity.
Sequence IV Donor splice site is cut, and the end of the intron is joined covalently to the branch site. III. Acceptor splice site is cut. I. Exon ends are covalently joined together.To produce numerous functional RNAs or proteins from a single transcript, RNA splicing is a post-transcriptional technique. Darwin's theory of evolution by function follows form is best shown by the evolution of RNA splicing.To facilitate the translation of mRNA into a protein, RNA splicing involves splitting up the protein-coding regions (exons) and removing the intervening, non-coding segments of genes from pre-mRNA.For more information on RNA splicing kindly visit to
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heat is capable of causing a change in the 3-d shape of a protein. when this occurs, we describe the change as:
A protein's 3-D shape can be altered by heat. We refer to that as "denaturation" when it happens.
A biological process called denaturation changes the molecular makeup of proteins. To achieve denaturation, many of the weak connections or links that give proteins their highly organized structure in their initial (natural) state must be broken. The majority of denatured proteins are insoluble and have a looser, more erratic structure. Denaturation can be caused by a variety of factors, including heating, contact with alkalis, acids, urea, or detergents, as well as strong shaking. When the denaturing agent is withdrawn and the conditions that favor the native form are once again available, some proteins can reassemble into their original structure. Blood saline Some of the proteins that can undergo this renaturation process include albumin, ribonuclease, and hemoglobin. One of many proteins that have undergone permanent denature is egg white. Biological activity is lost during denaturation, which is one of its frequent negative impacts.
The proper question is:
Heat is capable of causing a change in the 3-d shape of a protein. when this occurs, we describe the change as __________.
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How should people get the resources they need
Save the resource as much as you can while also taking sustainability and the environment's impact into account. Increase internal product reuse and recycling of (waste) components and materials.
What kind of resources are needed?
Resources are required by humans since they can be used as a raw material to satisfy their demands and comforts. Agriculture depends on natural resources, which increases its economic significance. They also present chances for employment.
A biological resource is a material or feature needed by an organism for healthy development, upkeep, and reproduction. One organism's consumption of resources may make them unavailable to other organisms. The most important resources for plants are sunlight, nutrients, water, and a space to grow.
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QuestionThe production of a new individual from the parent is called AReproductionBPropagationCCloningDNone of the aboveMedium
The production of a new individual from the parent is called Reproduction option a)
Reproduction is the process of producing children. It is possible to reproduce in two ways: sexual reproduction and asexual reproduction. An organism that reproduces sexually integrates the genetic information from both parents and is genetically distinct. Asexual reproduction occurs when one parent copies itself to produce genetically identical kids.
The process of producing new species/organisms is known as reproduction. Sexual and asexual reproduction are both possible. Reproduction is necessary for the survival of a species. It ensures that similar types of people be passed down from generation to generation.
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Consider the elements, listed, found in the human body. Which two are major components, making up at least 3% each of the human body? hydrogen n cobalt selenium O magnesium O carbon
The elements hydrogen and carbon are two major components from the listed elements making up at least 3% each of the human body.
The human body is composed of six elements, including oxygen, carbon, hydrogen, nitrogen, calcium, and phosphorus, which account for around 99% of its mass. The remaining five elements, potassium, sulphur, sodium, chlorine, and magnesium, account for only about 0.85% of the total makeup. All 11 of them are required by life. The remaining elements are trace elements, of which more than a dozen are thought to be essential for life based on convincing evidence. The body mass of magnesium, the least abundant of the 11 non-trace elements, is not equal to the combined mass of the trace elements (less than 10 grammes for a human body).
Hence, The elements hydrogen and carbon are two major components from the listed elements making up at least 3% each of the human body.
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studies from your lab have shown that a novel nuclear protein controls the transcription of several critical tumor suppressor genes. this protein was found to be downregulated in breast cancer cells. careful sequence analysis reveals the following sequence in the n-terminus of this protein (the positions of the amino acids are indicated): pro(1)-pro(2)-val (3)-ala(4)-arg(5)-lys(6)-lys(7)-arg(8)-lys(9)-lys(10)-lys(11)-tyr(12)-ile(13). a construct in which amino acids 1-10 are deleted does not localize to the nucleus. however, when you fuse amino acids 1-10 to gfp, gfp remains in the cytosol. which of the following statements best describes the conclusion that you would draw from this experiment? a: amino acids 1-10 are necessary and sufficient to target the protein into the nucleus b: the protein is imported into the nucleus c: amino acids 1-10 are sufficient for the nuclear import of this protein d: amino acids 1-10 are necessary for nuclear import because they interact with the ran gtpase e: amino acids 1-10 are necessary for nuclear import
The statement that best describes the conclusion that you would draw from this experiment is amino acids 1-10 are necessary but not sufficient to direct the protein's import into the nucleus. Thus, A is the correct option.
Transcription is the first step in gene expression. It includes copying a gene's DNA sequence to build an RNA molecule. Transcription is carried out by enzymes called RNA polymerases, that link nucleotides to form an RNA strand (by using a DNA strand as a template).
Transcription has three stages: initiation, elongation, and termination. In eukaryotes, RNA molecules are processed after the transcription i.e., they are spliced and have a 5' cap and poly-A tail put on their ends.
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a nasa orbiter recently captured craters and formations on mars that resembled the face of which animal?
A hill with a V-shaped collapse structure, two craters and a circular fracture pattern — possibly the remains of a buried impact crater — appear to form the face of a bear on the Mars surface.
Although bears aren't normally supposed to exist on Mars, a peculiar rock formation that was recently discovered there would lead you to believe that they do. A strange rock structure on Mars that perfectly mimics a bear's face was photographed by the NASA Mars Reconnaissance Orbiter on December 12.
The bear face is far larger than a typical bear's face, measuring around 6,560 feet across in a scaled-down rendition of the image, despite the fact that they may appear similar. A video describing the characteristics of the bear face was also released by the HiRise team. The HiRISE team described the object as having a "hill with a V-shaped collapsed structure (the nose), two craters (the eyes), and a circular fracture pattern (the head)". The settling of a deposit over a submerged impact crater could be the cause of the circular fracture pattern.
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microorganisms require phosphorus, sulfur, iron, and magnesium for metabolism. what specifically are these elements used for in microbial metabolism or cellular structures?
These components are utilised in cellular or microbiological metabolism as ultimate e- acceptors.
Weight gain and decrease are strongly influenced by metabolism. Weight loss happens when the body expends more energy than it consumes through meals. This is due to the fact that the body must utilize fat-stored energy in order to up again for calorie deficit.
Numerous variables, such as heredity, ageing, body mass, and hormonal balance, have an impact on metabolism. Resting metabolic rate (BMR), or the quantity of calories burned while at rest, is influenced by genes.
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if an herbicide blocked the calvin cycle before the generation of g3p, what would happen? please refer to the following art to answer the following question. the figure shows the calvin cycle. an enzyme adds each co2 to a five-carbon sugar called rubp. that breaks molecule into two three-carbon molecules. using energy from the light reactions, enzymes convert each three-carbon molecule to the three-carbon sugar g3p. for every three molecules of co2 that enter the cycle, the net output is one g3p sugar. the other g3p sugars continue in the cycle. using energy from atp, enzymes rearrange the remaining g3p sugars to regenerate rubp. if an herbicide blocked the calvin cycle before the generation of g3p, what would happen? no oxygen would be released by the plant. only rubp would be recycled. the plant would still be able to make sugar, just a lot less. no sugar would be made by the plant.
If an herbicide blocked the Calvin cycle before the generation of G3P, Option D: no sugar would be made by the plant, is true.
In order to FIX carbon from CO2 into three-carbon sugars, plants go through a chain of chemical processes known as the Calvin cycle. In turn, amino acids, nucleotides, and more complex sugars like starches can be made from the three-carbon sugars. In contrast to ATP, which is immediately depleted after creation, plants employ the sugars produced in the Calvin cycle to store energy over the long term.
The Calvin cycle's primary job is to produce three-carbon sugars, which are then utilised to make other sugars including glucose, starch, and cellulose.
Therefore, no sugar would be produced by the plant if a herbicide prevented the Calvin cycle from starting before the production of glyceraldehyde 3-phosphate (G3P).
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Correct question is:
If an herbicide blocked the Calvin cycle before the generation of glyceraldehyde 3-phosphate (G3P), which of the following statements would be true?
A) The plant would need more carbon dioxide
B) The plant would still be able to make sugar, just a lot less.
C) No oxygen would be released by the plant.
D) No sugar would be made by the plant.
E) Only RuBP would be recycled.
1. Which scientist's ideas eventually lead to the theory that Earth is several billion years old?
A. Charles Lyell
B. Alfred Russel Wallace
C. Georges Cuvier O
D. Jean Baptiste Lamarck
Answer:
C. George Cuvier
Explanation:
During the 19th century, Georges Cuvier developed his own theory of catastrophes. Fossils show that animal and plant species are destroyed time and again by floods and other natural disasters, and that new species evolve shortly after that.
how well an organism survives and reproduces in its environment can be described as its?
An organism's fitness is determined by how well it adapts to its surroundings and reproduces.
An organism's capacity for survival and reproduction in its environment is referred to as fitness. High fitness individuals are those who have environmental adaptations that allow them to live and reproduce in their environment. Fitness, in its most basic sense, refers to an organism's capacity to persist and procreate in its environment, or, less frequently, a population or species. As a result of their ability to reproduce and survive, organisms pass on their genes to the following generation. In evolutionary biology, the ability of an organism to pass on its genetic makeup to its progeny is referred to as "fitness." Being able to live long enough to reproduce and preserve the population or species is biological fitness, also known as "Darwinian" fitness. As a result, you could say that brown beetles had a higher fitness level if they consistently produced more offspring than green beetles due to their colour.
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The above question is incomplete. Check complete question below -
How well an organism survives and reproduces in its environment can be described as its?
A. Fitness
B. Adaptation
C. Survival
D. Acclimatization
How can glucosinolates provide a defense for plants against being eaten?
The usual sharp flavour of these foods is caused by glucosinolates. These chemicals do not have biological activity by themselves, but when they are hydrolysed by myrosinases, several breakdown products are created that aid in plant defence.
The ability of glucosinolates to defend against herbivores is well known, but recent research has indicated that they are also effective against microbiological infections. As a result, glucosinolates can also help prevent and treat some types of cancer. Some specialised glucosinolates breakdown products can also help control microbial infectious disease in humans. The presence of glucosinolates as phytoanticipins is inherent in the plant, but different forms of glucosinolates are generated in response to herbivore or pathogen attack. Particularly the (indolic) glucosinolates generated from tryptophan react sensitively to the various forms of hormone signalling cascades upon infection.
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