Answer:
o
Explanation:
Letter M corresponds to a trench in the cross section of earth layers. Therefore, option (B) is correct.
What is a trench?Subduction is a geophysical process in which two or more of the Earth's tectonic plates converge, and the older, denser plate is pushed beneath the lighter plate and deep into the mantle, causing the seafloor and outermost crust (the lithosphere) to bend and form a steep, V-shaped depression.
These regions, which are known as deep sea trenches, have depths that are nearly three times greater than the typical depth of the sea bottom. The trench zones are distinguished by total obscurity as well as unfathomable pressures that can reach up to 16,000 pounds per square inch.
Learn more about trench , here:
https://brainly.com/question/13612797
#SPJ2
Selecting from the following, which tooth and surface are most likely to exhibit pit and fissure carries?
- 18, facial
- 19, lingual
- 4 buccal
- 15, buccal
- 9 incisal
The tooth and surface most likely to have pits and fissures is, 9 incisa. Correct answer: E.
Why the tooth and surface most likely to have pits and fissures is 9 incisa?The tooth and surface most likely to have pits and fissures is the incisor. This is because the incisor is the tooth that is most exposed to the outside world and therefore is more likely to come into contact with acidic or sugary substances that can cause pits and fissures.
Incisors are the eightSPJ4 teeth in the front of the mouth that are used for biting and cutting food. The incisors are the four teeth on either side of the two front teeth (central incisors).
Learn more about the incisors:
https://brainly.com/question/19162355
#SPJ4
Cell grown in a petri dih tend to divide until they form a thin layer covering the bottom of the dih. If cell are removed from the middle of the dih, the cell bordering the open pace will begin dividing until they have filled the empty pace. What doe thi experiment how?
Cell grown in a petri dih tend to divide until they form a thin layer covering the bottom of the dih by turning the regulators on and off, you can regulate cell division and growth.
Cell division and growth are managed and controlled by signal proteins. For instance, mitogens help remove undesirable restrictions that would otherwise prevent the progression of the cell cycle. Growth factors promote cell growth by producing proteins. Apoptosis is also inhibited by a number of survival factors. Cell division and growth can be turned on or off depending on these three factors. Life requires the process of mitosis to occur. A cell divides into two identical daughter cells after replicating all of its parts, including its chromosomes. Mitosis is a crucial process, and certain genes carefully control each stage.
Learn more about cell division at
https://brainly.com/question/14291710?referrer=searchResults
#SPJ4
name the highlighted muscle, which originates at the medial clavicle and the manubrium of the sternum.
The muscle that is highlighted is the sternocleidomastoid, which arises from the sternum's manubrium and medial clavicle.
Describe the medial clavicle.The sternoclavicular joint is formed by the clavicle's medial articulation with the sternum's manubrium (SC joint). An intra-articular disc is located between the clavicle and the sternum in this joint, which is encased in a fibrous capsule.
To keep the scapula in place and allow the arm to hang freely, the medial clavicle acts as a strut. The location of it is directly above the first rib. Its rounded medial end, also referred to as the sternal end, articulates with the manubrium of the sternum at the sternoclavicular joint (breastbone).
To know more about medial clavicle visit:
https://brainly.com/question/13399257
#SPJ4
What is electrolyte balance in the body?
The electrolytes present in our body should be in the right concentration. This is said to be electrolyte balance.
Why does an electrolyte imbalance occur?
Electrolyte imbalance is caused when the body fluids are present in large amount. When we sweat or vomit more, it can be due to the lower level of some electrolytes. So, it is necessary that the electrolytes should be in proper proportion.
Electrolytes plays a very important role in our body. It helps in regulation of fluids present in blood and blood plasma, normalizes the pH of blood, allows the contraction of muscles and so on. For all these necessary roles to occur, our electrolytes should be in proper concentration. This is called electrolyte balance.
To know more about electrolyte balance, click the following link
https://brainly.com/question/6312997
#SPJ4
when using the hill equation:a.it is possible to observe positive cooperativity.b.it is possible to observe negative cooperativity.c.it is possible to observe both positive, negative and no cooperativity.d.it will never be 1 for a multisubunit protein.e.it cannot be applied to noncooperative binding.
"It is possible to observe negative cooperativity" when utilizing the hill equation.
What exactly is negative cooperativity?Negative cooperativity occurs when one or more molecules of a ligand attach to a multimeric receptor, making subsequent ligand molecules more difficult to bind. Negative cooperativity can make a multimeric receptor's response more graded than it would otherwise be. When the binding of a first ligand or substrate molecule lowers the rate of subsequent binding, this is referred to as negative cooperativity. This term is applicable not just to ligand-receptor interaction, but also whenever two or more molecules undergo two successive binding events. When the binding of a first ligand or substrate molecule lowers the rate of subsequent binding, this is referred to as negative cooperativity.
To know more about negative cooperativity,
brainly.com/question/13465624
#SPJ4
Define oligopotent, multipotent, totipotent, and pluripotent cells are
a. An oligopotent cell can simply be defined as that special stem cell which has the ability to form two or more cell types within a particular tissue tissue.
b. A multipotent cell is defined as the cells which possess the feature renew itself by means of cell division which forms a specialized cell in a tissue.c. A totipotent cell is a cell which produces a fertile adultd. Pluripotent cell refers to the cell which can form other cells and tissues.How do oligopotent cells form cells in a tissue?It follows that these oligopotent cells are produced from the mesoderm which usually, frequently and most of the time differentiate into other cells and tissues. They have the ability to form specialized cells in a specific tissue simply because of their dividing capacity
So therefore, it can be deduced from the explanation above that an oligopotent cell develops to form other specialized cells in a tissue.
Read more on cells:
https://brainly.com/question/21692411
#SPJ1
the molecule that copies or transcribe the dna in the nucleus of eukaryotic cells, which contains the information for protein synthesis is, group of answer choices
Genes use transcription and translation, two processes, to make proteins. The cell nucleus contains a substance called RNA (ribonucleic acid).
What do cells do, and what are they?Cellular are the important building blocks of all living creatures. A human body has many billions of cells. They provide the body with structure, take in nutrients from food, convert that food into energy, and carry out certain functions.
What's a cell's structure?The three parts that constitute a cell are the cytoplasm, the nuclear, and the outer layer. The cytoplasm contains millions of tiny, distinct components known as organelles and intricate networks of microscopic fibers.
To know more about Cells visit:
https://brainly.com/question/19853211
#SPJ4
cyanide binds with at least one protein complex involved in producing atp. if a cell is exposed to cyanide, most of the bound cyanide is likely to be localized within which of the following organelles?
The correct answer is option (A.) mitochondria
If a cell is exposed to cyanide, most of the cyanide will be found within the mitochondria.
Heme-containing proteins include Fe3+, which cyanide binds to. As a result, the electron transport chain's terminal cytochrome complex IV is inhibited. Cyanide's blockade of complex IV depletes ATP, which leads to cell death. Cytochrome a3 that has been reduced cannot be reoxidized by oxygen. As a result, both cellular respiration and ATP generation are hindered, effectively depriving the cells, tissues, and ultimately the entire body of oxygen. Reduced oxygen saturation and metabolic acidosis develop as a result of hypoxia. The severity of cyanide poisoning is indicated by the degree of lactic acidosis. Plasma lactate is a sign of cyanide poisoning in a collapsed person. Up to 98% of the cyanide in the bloodstream in cases of severe cyanide poisoning is securely attached to red blood cells.
Myocardial depression and a decrease in cardiac output are the secondary responses. The development of VF and cardiovascular collapse follows bradycardia, hypotension, and cardiac arrhythmia.
The autonomic shock brought on by the production of biogenic amines plays a part in severe cyanide poisoning. The observed shock-like state is not due to cytochrome oxidase inhibition, but rather to coronary artery vasoconstriction, which increases central venous pressure. Rhodanese in the liver converts CN to thiocyanate, which is eliminated in the urine.
The complete question is:
Cyanide binds to at least one molecule involved in producing ATP. If a cell is exposed to cyanide, most of the cyanide will be found within the
a. mitochondria.
b. ribosomes.
c. peroxisomes.
d. Lysosomes.
To learn more about cyanide and cell please click on the given link: https://brainly.com/question/23367833
#SPJ4
Over a long period of time, helpful variations in a species replace the unfavorable ones. This change can lead to.
Over a long period of time, helpful variations in a species replace the unfavorable ones. This change can lead to. Fossilization .
Fossilization is the system of an animal or plant becoming preserved in a difficult, petrified shape. Fossilization frequently outcomes in the affect of an organism being left in a rock. while a leaf or an animal skeleton will become a fossil, it's fossilization.
Fossils are the remains or traces of historic lifestyles which have been preserved via herbal techniques. Examples of fossil consist of shells, bones, stone imprints of animals or microbes, exoskeletons, objects preserved in amber, petrified wood, coal, hair, oil, and DNA remnants. There are five sorts of fossils: frame Fossils.
Fossils supply us a useful insight into the history of existence on the planet. they are able to train us where existence and human beings came from, show us how the Earth and our surroundings have changed through geological time, and the way continents, now broadly separated, had been as soon as connected.
Learn more about Fossilization here:
https://brainly.com/question/14529748
#SPJ4
a eukaryotic gene contains three introns and four exons. the first intron becomes mutated such that the spliceosome cannot recognize the boundaries between the intron and the exon (the splice sites). this intron contains a stop codon that is in frame with the first exon. what will occur when this gene is expressed?
When it occurs, this gene is expressed then splicing mutation may disrupt already-existing splice sites, produce new ones, or activate cryptic ones.
The point mutation at the cis consensus sequences causes incorrect exon and intron recognition in messenger RNA and causes the creation of an aberrant transcript of the altered gene.
It can happen in both introns and exons. They may also change the messenger RNA's secondary structure, which would inhibit the binding of the spliceosome components, or they may affect the binding of splicing enhancers and silencers. Exon/exon fragment skipping caused by these mutations often occurs during pre-mRNA splicing. The shortened protein will be produced if the ensuing deletion is an in-frame one.
A premature stop codon (PTC) can be added and a truncated protein can be created when the deletion causes the open reading frame to shift. However, a protective process known as nonsense-mediated decay accelerates mRNA degradation when the PTC is present in the transcript (NMD). Similar to gene deletion or nonsense mutation, the faulty messenger RNA is degraded to stop the production of abnormal proteins.
Know more about eukaryotic genes at:
https://brainly.com/question/22940404
#SPJ4
Scientists study upper atmospheric conditions to __________.
Answer:
Predict weather conditions and climate.
Step-by-step:
Applying science and technology to forecast the weather is known as weather forecasting. It involves determining the atmosphere's state at a specific location and moment in time.
Hope this helps! :)
Scientists study upper atmospheric conditions to understand various aspects of Earth's atmosphere and its interactions with the environment, which is option A. So the correct answer is option A.
The upper atmosphere plays a crucial role in climate and weather patterns. Studying upper atmospheric conditions helps scientists understand atmospheric circulation, temperature variations, wind patterns, and the transport of pollutants and greenhouse gases. This knowledge contributes to climate modeling, weather forecasting, and understanding long-term climate trends. So the correct answer is option A.
Learn more about the atmosphere here.
https://brainly.com/question/32274037
#SPJ6
Scientists study upper atmospheric conditions to __________.
A.understand various aspects of Earth's atmosphere
B.Not to know various aspects of Earth's atmosphere
looking at your results of the ames test using bacteriological agar medium plates lacking the amino acid histidine, you find that there are many colonies growing on the agar. how do you interpret this result?
Interpret this result is the chemical being tested is mutagenic.
What is mutagenic?A mutation-causing agent (a change in the DNA of a cell). Mutagens can damage cells and result in diseases like cancer thanks to the DNA mutations they produce. Radiation from x-rays, ultraviolet light, and certain compounds are a few examples of mutagens.
In the field of genetics, a mutagen is a physical or chemical agent that permanently modifies genetic material, typically DNA, in an organism and raises the frequency of mutations above the background level of natural occurrence.
Physical, chemical, or biological mutagens can all be mutagenic agents. Mutagenicity is the property of a chemical that permits the induction of mutations or changes in DNA base pairs.
To learn more about mutagenic refer to:
https://brainly.com/question/13837704
#SPJ4
What are the components of blood?
The components of human blood are:
The components of human blood are the blood cells and plasma. The blood cells are of types such as RBCs, WBCs, and platelets. The plasma consists of the clotting factor and other proteins.
What is blood?The human blood has a fluid part called plasma and a cellular part. Red blood cells (RBC), white blood cells (WBC), and platelets make up the cellular portion of the blood.
The plasma component of the blood consists of clotting factors such as fibrinogen and other proteins like albumin. RBC carries the oxygen that is bound to haemoglobin. WBC protects the body from pathogens.
Hence, the components are plasma, RBC, WBC, and platelets.
To learn more about the blood, refer to the following link:
https://brainly.com/question/14781793
#SPJ1
What two significant proteins of the muscles are involved in the contraction and relaxation of your muscles?.
Muscle contraction as a consequence outcomes from an interplay between the actin and myosin filaments that generates their motion relative to each other. The molecular basis for this interplay is the binding of myosin to actin filaments, permitting myosin to function as a motor that drives filament sliding.
Muscle contraction and relaxation are managed via the intrafiber unfastened Ca++ attention, [Ca++]i, within the myoplasm which bathes the muscle filaments of the sarcomeres. In turn, the [Ca++]i is managed with the aid of a community of membranes which alter and coordinate the technique in time and area.
Muscles incorporate fibers referred to as myosin. depending on the way you need to apply your muscles, the myosin fibers either tighten up and shorten or lighten up and stretch out. Myosin is also answerable for muscle contractions like your heartbeat that occurs at regular periods.
Learn more about Muscle contraction here:
https://brainly.com/question/25778330
#SPJ4
Amylopectin and glycogen are similar molecules. The two molecules differ because?.
Gluconeogenesis is a soluble type of starch, whereas amylose is an insoluble form.
What is the function of glycogen?Glycogen is the name given to this form of glucose that is stored and is composed of several linked glucose molecules. Glycogen is degraded to release into the bloodstream, which is then used to fuel for the cells, when the body needs a sudden surge of energy or if the body isn't obtaining glucose from food.
Glycogen: Is it just sugar?Describe glycogen. Glycogen, or stored glucose (sugar), is your body's primary source of energy. In order to store a single glucose molecule, your body branches it into a given mass that can be subsequently decomposed when energy is required.
To know more about Glycogen visit:
https://brainly.com/question/14466525
#SPJ4
effector molecule binding changes the behavior of enzymes by altering the equilibrium between the tense (t) state and the relaxed (r) state. effectors are classified as either homotropic or heterotropic. match each description with homotropic effectors, heterotropic effectors, or both. some statements may not describe either type of effector. you are currently in a sorting module. turn off browse mode or quick nav, tab to items, space or enter to pick up, tab to move, space or enter to drop. homotropic effector heterotropic effector both'
Effector molecule binding changes the behavior of enzymes by altering the equilibrium between the disturbing (t) kingdom and the comfortable (r) country. effectors are labeled as either homotropic or heterotropic. in shape every description with homotropic effectors.
Homotropic effector-
Both -
The phrase
Is relevant and can be applied to homotropic effector molecules since the heterotropic effector molecules have the possibility and affinity to change the sigmoidal curve to a more potential hyperbolic curve contingent upon the allosteric effector being positive or negative modulator.
The expression isn't relevant for both homotropic and heterotrophic effectors since the two of them can tie to the allosteric site of allosteric enzymatic compounds.
The phrase is significant and can be applied to both homotropic and heterotropic effectors.
The expression is significant and applied for homotropic effectors just as when substrate molecules tie to the allosteric site of an enzyme then it is regarded as a homotropic effector. The heterotropic effectors are effectors apart from substrate molecules.
Learn more about homotropic effectors here
https://brainly.com/question/22478449
#SPJ4
Disclaimer:- Your question is incomplete, please see below for the complete question.
Effector molecule binding changes the behavior of enzymes by altering the equilibrium between the tense (t) state and the relaxed (r) state. effectors are classified as either homotropic or heterotropic. match each description with homotropic effectors, heterotropic effectors, or both. some statements may not describe either type of effector. you are currently in a sorting module. turn off browse mode or quick nav, tab to items, space or enter to pick up, tab to move, space or enter to drop.
A. homotropic effector
B. heterotropic effect
C. or both'
If a dog cell has 72 chromosomes, how many chromosomes will each daughter cell have?
Answer:
1. Two daughter cells will be produced. The cell division process known as mitosis (single cell cycle) always produces two identical daughter cells, irrespective of the number of chromosomes.
2. 72 chromosomes. As stated above, the daughter cells are identical to the parent cells and have the same amount of chromosomes.
Explanation:
Not sure if this helps but I tried :)
What is the primary biomolecule that cells use for energy?
Answer:
Explanation: Adenosine triphosphate (ATP), energy-carrying molecule found in the cells of all living things. ATP captures chemical energy obtained from the breakdown of food molecules and releases it to fuel other cellular processes.
Benthic organisms that live on or attached to rocky areas and firm sediments are collectively called ______, whereas animals that live buried in the substrate and are associated with soft sediments, such as mud or sand, are collectively called ______.
Benthic organisms that live on or attached to rocky areas and firm sediments are collectively called epifauna, whereas animals that live buried in the substrate and are associated with soft sediments, such as mud or sand, are collectively called infauna.
Benthic is a term that refers to anything that belong to the bottom like that of the sea, ocean, lake, etc. There are various species of plants and animals that reside in the benthic region of the waterbodies. These organisms are termed as benthos.
Soft sediments are the structures formed due to the deformation of the solid particles like rocks. These include mud, silt, and sand. The soft sediments are the benthic region of the waterbodies where various organism reside.
To know more about benthic, here
brainly.com/question/3179087
#SPJ4
What would be the result of a cytosine base being substituted for a thymine base in a dna segment during dna replication?.
The sequence could code for the incorrect amino acid during translation if a cytosine base is changed to a thymine base in a DNA segment during DNA replication. Mutation is the term used to describe a change in the DNA sequence.
What is cytosine?Nucleotides are typically one of the first concepts covered while learning about DNA and RNA replication. One of the five nitrogenous bases that make up the building blocks of nucleic acids, along with adenine, thymine, guanine, and uracil, is cytosine. Cytosine is one of three pyrimidine bases, the other two being thymine and uracil. It is also known by its IUPAC name, 6-amino-1H-pyrimidine-2-one. Because pyrimidine bases only have one ring in their structures, they are smaller than their purine counterparts. Purines, on the other hand, have two rings. Pyrimidines can bond with purines and thus maintain a constant size throughout the double-stranded helices of DNA and RNA thanks to this size difference.
Learn more about DNA here:
brainly.com/question/264225
#SPJ4
If a cytosine base in a DNA segment is changed to a thymine base during DNA replication, the sequence might translate as the incorrect amino acid. The term "mutation" refers to a change in the DNA sequence.
What does cytosine do?When learning about DNA and RNA replication, nucleotides are frequently one of the first concepts covered. Cytosine, along with adenine, thymine, guanine, and uracil, is one of the five nitrogenous bases that make up the building blocks of nucleic acids.
One of three pyrimidine bases, along with thymine and uracil, is cytosine. Additionally, it is referred to by its IUPAC name, 6-amino-1H-pyrimidine-2-one. Pyrimidine bases are smaller than purine bases because their structures only contain one ring. On the other hand, purines have two rings. Due to this size disparity, pyrimidines can bond with purines and keep their size constant throughout the double-stranded helices of DNA and RNA.
To know more about DNA visit:-
https://brainly.com/question/264225
#SPJ4
hat does the intrinsic growth rate of a species measure? How does it vary among species? (consider r/k selection,etc)
The intrinsic growth rate of a species measures the max potential for growth under ideal conditions for a species. The r-selected species show high growth because they can give rise to a large number of offspring at once and the k-selected species have slow growth as they reproduce fewer species.
The r-selected species are the organisms that involve all their potential and energy in reproducing. They give birth to a large number of species at once and hence provide very less or no parental care.
The k-selected species do not give all the energy in reproducing and hence they offer parental care to the offspring. Thus, these offspring live longer than the offspring of the r-selected species.
To know more about r-selected and k-selected, here
brainly.com/question/9569502
#SPJ4
When cells in the artery wall take up ______ in an uncontrolled fashion, they become_____ cells.
When cells in the artery wall take up lipid in an uncontrolled fashion, they become droplets and grow to accomodate cells.
What are cells?The smallest component of all living things, including cells and tissues in the body, that is capable of independent living. The cell membrane, nucleus, and cytoplasm make up a cell's three basic structural components. In addition to enclosing the cell, the cell membrane also regulates the molecules that enter and exit the cell.All living things are composed primarily of cells. Trillions of cells make up the human body. In addition to absorbing nutrients from meals and converting those nutrients into energy, they also provide the body structure and perform certain tasks.
There are two different types of cells: eukaryotic cells, which have nuclei, and prokaryotic cells, which lack nuclei but still include nucleoid regions. Prokaryotes are organisms with only one cell,In contrast, eukaryotes can be single cells or multicellular.
The cell, discovered by Robert Hooke in 1665, has a long and fascinating history that ultimately paved the way for many of today's scientific breakthroughs
Within the fat cell, lipid is stored in a droplet. This droplet can enlarge, and the cell membrane will grow to accomodate its swollen contents.
To know more about cells visit the link below,
https://brainly.com/question/14957605
#SPJ4
HELP- Which of the following explains how the economic value of forest ecosystems is measured?
O by measuring the total value of recreation money made from forests
O by measuring the total value of raw materials taken directly from forests
O by measuring the total value of services and goods that are taken from forests
O by measuring the total value of products made from items exported from forests
Economic value of forest ecosystem can be measured by measuring the total value of services and goods that are taken from forests
What is the economic value?
Humanity gains greatly from forests in both the economic and social spheres. These include investments in the forest sector as well as contributions to the larger economy, such as through jobs, the processing and trading of forest products and energy. They also involve hosting and safeguarding natural areas with significant cultural, spiritual, or recreational value. Sustainable forest management includes preserving and improving these functions.Economic functions of forests:
Price of removed wood and non-wood forest productsEmployment in forestryOwnership of woodlandforests with designated social service areas.Benefits of forest ecosystem:
Trees enhance aesthetics and enhance health.Trees help clean the air.The atmospheric greenhouse effect is fought by trees.Trees prevent soil erosion and conserve water.Trees reduce energy use.Local climate is impacted by trees.Economic stability is increased by trees.Having trees around quiets the city.Therefore by measuring total value of goods and services we can measure the economic value of forests
To learn more about forests click on the link
https://brainly.com/question/11076581
#SPJ1
if an e. coli cell experiences high internal concentration of glutamine and low concentration of alpha keto-glutarate, what happens to the status of the enzyme glutamine synthetase?
The Krebs cycle, which regulates the organism's overall pace of the citric acid cycle, is keyed by the chemical alpha-ketoglutarate (AKG).
Explain about the Krebs cycle?Alpha-ketoglutarate, often known as AKG, is a nutrient that cells utilize to develop and mend after wounds and other types of trauma. It is particularly crucial for the recovery of muscle tissue. AKG intravenously avoided a reduction in protein synthesis in the muscles of individuals recovering from surgery, according to a controlled study.
Alpha-ketoglutarate is occasionally administered intravenously (IV) during heart surgery to prevent damage to the heart from poor blood flow and to stop muscle breakdown following trauma or surgery.
In 2014, researchers revealed that the chemical, AKG, might increase the lifespan of the microscopic Caenorhabditis elegans worms by more than 50%.
To learn more about Krebs cycle refer to:
https://brainly.com/question/2214075
#SPJ4
The calvin cycle and the krebs cycle are similar in that both ________________________________.
The Calvin cycle and the Krebs cycle are similar in that both produce energy as well as sugar.
Two significant metabolic mechanisms are the Calvin and Krebs cycles. Both procedures utilize carbon dioxide and ATP. Plants exhibit both. Inside the cells, both activities are cyclical. The Calvin cycle is the mechanism used to fix carbon during photosynthesis in order to make carbohydrates.
Also known as Kreb's cycle, the tricarboxylic acid cycle (TCA) and the citric acid cycle are two examples. The light-free processes of photosynthesis include the Calvin cycle. The Calvin cycle utilizes ATP and NADPH. Cellular respiration includes the Krebs cycle. This cycle generates ATP and NADPH.
Learn to know more about Calvin's cycle on
https://brainly.com/question/920840
#SPJ4
Which organelles are found in plant cells but not in animal cells?
O cell membrane, vacuole
O cell wall, chloroplasts
O cell wall, vacuole
O cell membrane, chloroplasts
Answer:
cell wall chloroplasts
Cell walls and chloroplast are the organelles that are found in plant cells but not in animal cells A hard structure situated outside the cell membrane is called a cell wall and it is present in plant cells.
The cell wall supports and shields the cell's structure. Cell walls do not exist in animal cells.
Chloroplasts, specialized organelles involved in photosynthesis, are another component of plant cells. The pigment chlorophyll, which is found in chloroplasts, absorbs light energy and uses it to synthesize glucose.
The photosynthesis process cannot be performed by animal cells because they lack chloroplasts.
Hence, the chloroplasts and cell walls are the organelles that are present in plant cells but not in animal cells.
To know more about plant cells:
https://brainly.com/question/29276890
#SPJ5
For the red onion skin experiment, in what cellular structure is red onion pigment stored and you were observing shrinkage?.
Anthocyanins is the red pigment present in leaves, petals and fruit of onion.
What are anthocyanins?Plant-based pigments called anthocyanins are thought to have health advantages. They are part of a group of substances called flavonoids, which have antioxidant properties. They do this by combating free radicals, which are unstable chemicals that harm cells and raise the chance of developing certain diseases. Water-soluble pigments called anthocyanins not only give some plants their colour but also shield them from harsh temperatures.
Although it is obvious that anthocyanin-rich foods contribute to a healthy diet, it is still unknown if they can prevent or treat any illnesses. It is not clear how much anthocyanins must be consumed to be taken into account, even in cases where there is proof of their advantages, such as the decreased risk of heart disease.
Learn more about plant pigments here:
brainly.com/question/13914352
#SPJ4
The red pigment found in onion leaves, petals, and fruit is called anthocyanin.
Describe anthocyanins?Anthocyanins, a type of plant pigment, are known to have positive health effects. They belong to the class of compounds known as flavonoids, which have antioxidant effects. They accomplish this by battling free radicals, unstable molecules that damage cells and increase the risk of contracting specific diseases. Some plants get their color from water-soluble pigments called anthocyanins, which also protect them from extreme temperatures.
What effects do anthocyanins have on the body?Anthocyanins have actions that are anti-obesity, anti-inflammatory, anti-microbial, anti-cancer, anti-diabetic, and prevent cardiovascular disorders. Anthocyanins produced from food plants are therefore possible components for pharmaceuticals.
To know more about anthocyanin visit:-
https://brainly.com/question/24172703
#SPJ4
What is the mRNA code formed from the 5'-3' strand of DNA with the code AAA GCA TTG AGC GGC?
a
AAA GCA TTG AGC GGC
b
UUU CGT UUC TCG GCG
c
GCC GCU CAA UGC UUU
d
AAA GCT AAC TGC CCG
e
UUU CGU AAC UCG CCG
The mRNA code formed from the 5'-3' strand of DNA with the code AAA GCA TTG AGC GGC is as follows: UUU CGU AAC UCG CCG (option E).
What is transcription?Transcription is the process by which mRNA is synthesized from DNA molecule in the nucleus of the cell.
The DNA molecule is made up of sub-units called nucleotides, which are four in number as follows:
Adenine (A)Guanine (G)Cytosine (C)Thymine (T)However, during the process of transcription, the Adenine base is decoded into Uracil (U), which is only found in mRNA.
This suggests that the mRNA sequence that will be transcribed from the above-mentioned DNA sequence is as follows: UUU CGU AAC UCG CCG.
Learn more about transcription at: https://brainly.com/question/12582988
#SPJ1
What is the correct term for rising water vapor meeting colder air and turning back into water droplets?.
The meeting of water vapor with cooler air and turning it back into water droplets is called condensation.
What is condensation?
Condensation is the process by which the state changes from gas to liquid. Condensation is the reverse of the process of evaporation or vaporization. Condensation occurs when vapor is cooled to become a liquid. But it can also occur when a vapor is compressed (ie the pressure is increased) to a liquid or undergoes a combination of cooling and compression. The liquid that has condensed from the vapor is called condensate.
The condensation process occurs when water vapor in the air passes through a surface that is colder than the dew point of the water vapor. Air temperature plays an important role in the condensation process, for example in the event of the formation of dew in the morning.
Learn more about condensation here https://brainly.com/question/1268537
#SPJ4
Which genotypes are possible from a cross of parents with the genotypes dd x dd?.
Dwarf dd genotypes are those that can emerge through parent crosses between individuals of the dd X dd genotype.
Genotypes are essentially the genetic part of an organism that makes up its personality.
There are three types of genotypes: heterozygous, homozygous dominant, and homozygous recessive.
To reflect the character "height," consider mating parents with the genotypes homozygous tall TT and homozygous dwarf TT.
Genotypes Tt, Tt, Tt, and Tt will be heterozygous in the offspring.
In this case, the investigation focuses on the genotypes that might be produced by a cross between parents that have the dd X dd genotype.
Due to the homozygous nature of the parents, the genotypes, or dd X dd, would be dwarf.
Homozygous traits typically lead to homozygous genotypes unless one parent is heterozygous for the character.
Learn more about genotypes at
https://brainly.com/question/27886004?referrer=searchResults
#SPJ4