DNA polymerases, which sequentially add nucleotides to the growing DNA chain while only integrating those that are complementary to the template, are responsible for the production of DNA.
What part does DNA polymerase play in the replication of DNA?The primary role of DNA polymerases is to preserve the genome and guarantee that the genetic code is reliably transmitted from one generation to the next.
What two functions does DNA polymerase provide in a cell?Normal replication and repair are two major categories under which they offer polymerase activity. DNA polymerase uses its 3′–5′ exonuclease activity to fix mistakes during normal replication.
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Which of the following items are likely to show bacterial or fungal growth if sampled onto a general-purpose medium?
-Lab bench
-Sterile surgical instrument
-Doorknob
-Fingers washed with waterLab bench
Doorknob
Fingers washed with water
If samples of the following things are placed on a general-purpose medium, they are likely to exhibit bacterial or fungal growth:
Lab bench
Doorknob
Fingers washed with water
According to research by Harding & Brand (2012) and others, handling the microorganisms that lab workers were presently working with caused the lab technicians' hands to spread germs to the work surfaces, contaminating the work tables. In clinical settings and laboratories, microbial contamination of surfaces like door handles, telephones, and computer keyboards has also been recorded . Because the infectious microorganisms have the potential to remain on these surfaces for a specific amount of time depending on the type of bacteria, these sources of contamination would enhance the danger of harmful health consequences to laboratory users. The users and any third parties could disseminate these toxins farther.
E coli and Pseudomonas species have both been identified as frequent door handle isolates, E coli was listed as the second most frequent bacterial isolation from door knobs in a recent investigation.
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A ___ is a reversal of a ___, which is a process eliminating the possibility of fertility in men by cauterizing both of the vas deferens.
A vasovasostomy is reversal of a vasectomy, which is a process of eliminating the possibility of fertility in men by cauterizing both of vas deferens.
What is vasovasostomy and vasectomy?Minor surgical procedure to allow men who have had vasectomies father children again and success rates are 80 to 90 percent when performed by an experience microsurgeon. It Involves urology and fertility. Vasovasostomy is a surgery where vasectomies are partially reversed
Vasectomy is a form of male birth control that cuts supply of sperm to semen and it's done by cutting and sealing the tubes that carry sperm.
Vasectomy has low risk of problems and can be performed in an outpatient setting under local anesthesia.
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If you drink a large amount of water, your interstitial fluid may become_________compared to your intracellular fluid (assume that there has not been a major change in the solute/solvent concentrations of intracellular fluid).
If you drink a large amount of water, your interstitial fluid may become hypotonic compared to your intracellular fluid.
Hypotonic solutions are those that have more concentrations of solvent and less amounts of solute as compared to another solution or cell placed inside it. The movement of solvent occurs out of these solutions. The osmotic potential of such solutions is high.
Interstitial fluid refers to the fluid present around the spaces between cells. This fluid is helpful in the transporting oxygen and nutrients to the cells and also is involved in waste removal. The fluid becomes lymph fluid as it enters the lymph vessels.
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An individual that is homozygous at the locus that determines ABO blood type may have type ________ blood:a. O, A, or B
b. A, B, or AB
c. A, AB, or O
d. AB
Option d is Correct. A person with type AB blood may be homozygous at the locus that determines ABO blood type:
The O allele is subordinate to the A and B alleles. The genotype is homozygous recessive and the blood type is O when both inherited alleles are O. If you have two identical alleles, or the two genes that regulate a specific trait, you are homozygous. You are homozygous and have type O blood if both of your blood type-determining alleles are O.
ABO is a gene that codes for proteins and is found on chromosome 9q34. It is also known as alpha 1-3-N-acetylgalactosaminyltransferase and alpha 1-3-galactosyltransferase. The ABO blood type system, the first to be identified, is determined by proteins encoded by this gene.
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outline how atp hydrolysis provides the energy needed for highly unfavorable reactions, such as the biosynthesis of nucleic acids.
The hydrolysis of ATP provides the energy which is required for highly unfavorable reactions like the biosynthesis of nucleic acids as it is able to overcome the unfavorability by providing large enough free energy.
ATP hydrolysis is basically a catabolic reaction process by which the chemical energy which has been stored in the high-energy phospho-anhydride bonds in the ATP or adenosine triphosphate is released as a result of splitting of these bonds.
The hydrolysis of the pyrophosphate to form inorganic phosphate (ATP) is highly a highly favorable process helps drive the synthesis of polynucleotide. Nucleic acids require a large negative free energy which is supplied by the hydrolysis of ATP to form AMP.
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Small synaptic vesicles contain ___________, whereas large synaptic vesicles contain __________.
Small synaptic vesicles contain neurotransmitters , whereas large synaptic vesicles contain peptide transmitters
What chemicals can be found within synaptic vesicles?Neurotransmitters, which are tiny molecules, are used by neurons to interact with one another through chemical synapses. Neurotransmitter is stored in little sacs called synaptic vesicles and is released into the synapse's synaptic cleft when a vesicle fuses with the cell membrane.
Neurotransmitters are found in these vesicles. There is a significant density of "receptors" in this area. In response to electrical activity in the axon, neurotransmitters are released. Specialized proteins respond to a neurotransmitter in the postsynaptic membrane.
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both kenneth ross's research on social behavior in fire ants (1997) and isadora bielsky's research on the function of the avpria receptor in mice......
Overall, both studies appear to contribute to our understanding of the relationship between genetics and behavior.
What is genetics?The study of genes, genetic diversity, and heredity in organisms is known as genetics. It is a significant field of biology since heredity is essential to the evolution of organisms. Gregor Mendel, a Moravian Augustinian monk working in Brno in the nineteenth century, was the first to do scientific research on genetics.
Here,
According to the information provided, both studies determined there is significant gene-environment interaction, meaning that the expression of certain genes can be influenced by environmental factors. They both also examined the effect of different alleles on social behavior, which suggests that the different forms of a gene can have different impacts on behavior.
Additionally, both studies examined several genes associated with each behavior and the effect of a single gene on behavior, indicating that multiple genes can contribute to a particular behavior and that the effect of a single gene can be significant.
It seems like both Kenneth Ross's research on social behavior in fire ants and Isadora Bielsky's research on the function of the AVPR1A receptor in mice examine the relationship between genetics and behavior.
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Examination of a sample of glandular cells reveals an extensive network of smooth endoplasmic reticulum. Which of the following is the likeliest product of these cells?
A) digestive enzymes
B) steroid hormones
C) protein hormones
D) transport proteins
E) antibodies
If glandular cells have an extensive network of the smooth endoplasmic reticulum then those cells must be producing steroid hormone.
The correct option is option B.
Glandular cells are the cells which usually develop from the inside of the cervix which is also called the endocervical canal but they can also originate from various other parts of the reproductive system like the endometrium, which is basically the lining of the uterus, the fallopian tube, or even the ovary. It is usually involved in the production of mucus.
Steroid-secreting cells are usually characterized by the presence of abundant smooth endoplasmic reticulum whose membranes happen to contain many enzymes involved in steroid production. The smooth endoplasmic reticulum functions in a lot of different metabolic processes. It is able to synthesize lipids, phospholipids and also steroids.
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Identify which groups of organisms can produce each of the polysaccharides. Answers may be placed more than once, and some
groups may have more than one answer.
starch
glycogen
cellulose
chitin
107
Answer Bank
plants
fungi
animals
Following are the answers:
starch: plants, animalsglycogen: animalscellulose: plantschitin: fungi, animalsPolysaccharides are complex carbohydrates composed of many simple sugar monomers linked together by glycosidic bonds. They are found in a variety of natural sources, including plants, animals, and microorganisms, and play a variety of roles in biological systems.
Examples of polysaccharides include starch, glycogen, cellulose, and chitin. These compounds can be used as energy storage, structural support, and for the maintenance of cell shape and function.
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Argatroban is a competitive inhibitor of thrombin. Which of the following effects on the coagulation cascade is most likely to result from inhibiting thrombin activity with Argatroban? A. The activation of clotting factors will be blocked. B. The rate of fibrin formation will decrease. C. Thrombin will be converted to prothrombin. D. The rate of blood clot formation will increase.
Inhibiting thrombin activity with Argatroban is most likely to have impacts on the coagulation cascade by reducing the rate of fibrin production.
Is argatroban a thrombin competitor inhibitor?Argatroban is a synthetic, small-molecule inhibitor of thrombin that is direct, competitive, and selective. In addition to other thrombotic disorders, it is licensed for parenteral prevention and/or treatment of heparin-induced thrombocytopenia.
What function does Delta play in controlling cell communication?All the cells in an embryo in development get a chemical signal from delta. A developing embryo's cells may interact without coming into contact thanks to delta. Delta limits cell communication inside a growing embryo to close quarters.
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A codon region on a single DNA strand can be read in three different ways, depending on the position of the first codon. Thus, the first codon determines the region's ____
A codon region on a single DNA strand can be read in three different ways, depending on the position of the first codon. Thus, the first codon determines the region's initial protein.
An mRNA's codons are read beginning at a start codon and continuing until they reach a stop codon during translation. The order of amino acids in a protein, from the N-terminus (methionine) to the C-terminus, is determined by mRNA codons, which are read from 5' to 3'. The amino acid methionine is encoded by one "start" codon, AUG, which also denotes the start of a protein.
Codons typically define one amino acid. A protein's termination codons are three "stop" codons. Cells read codons, which are collections of three nucleotides, to decode mRNA. The total set of interactions between codons and amino acids is referred to as the genetic code (or stop signals).
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when an action potential occurs, potassium enters the neuron during depolarization and sodium enters the cell during repolarization. (true or false)
It is false that During an action potential, potassium enters the neuron during repolarization and sodium enters the cell during depolarization.
What is cell?In biology, the smallest unit that can exist on its own and is made up of all living creatures and bodily tissues. A cell is made up of three major components: the cell membrane, the nucleus, and the cytoplasm. The cell membrane surrounds the cell and regulates the molecules that enter and exit the cell. A cell is defined as "the tiniest, most fundamental element of life, responsible for all of life's operations." All living things have cells that serve as structural, functional, and biological units. A cell may duplicate itself on its own. As a result, they are referred to as the building blocks of life.
Here,
During depolarization, the voltage-gated sodium channels open, allowing sodium ions to flow into the cell. This increases the positive charge inside the cell, further depolarizing the membrane potential.
During repolarization, the voltage-gated potassium channels open, allowing potassium ions to flow out of the cell. This increases the positive charge outside the cell and decreases the positive charge inside the cell, which helps to restore the resting potential.
It is incorrect that potassium enters the neuron during repolarization and sodium enters the cell during depolarization during an action potential.
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A group of well-separated islands in the Pacific Ocean has a population of hibiscus plants that produce either orange or white flowers. On one of the islands, most of the hibiscus plants were killed a few years ago by a volcanic lava flow. Why is there a greater percentage of orange hibiscus plants on this island than on the other islands?
Orange flowering hibiscus plants were better adapted to survive lava flows, so white hibiscus was naturally selected out of the population on the island.
The limited population size after the lava flow resulted in a limited gene pool, causing genetic drift in future generations of hibiscus plants on this island.
Cross pollination across the islands without the lava flow caused the percentage of orange flowers to dramatically change on these islands over time.
The hibiscus plants on the island that had the lava flow suffered from a higher mutation rate than plants on other islands, causing a difference in the populations.
Genetic drift is an evolutive force that changes allelic and genotypic frequencies in populations. Option B). The limited population size after the lava flow resulted in a limited gene pool, causing genetic drift in future generations of hibiscus plants on this island.
What is genetic drift?
Genetic drift is an evolutionary mechanism in which the allelic frequencies in a population change through many generations. Its effects are harder in a small-sized population.
Genetic drift results in
some allele loss ⇒ even those that are beneficial for the populationthe setting of other alleles ⇒ their frequency increaseThe final consequence is the random setting one of the alleles.
Genetic drift has important effects on a population when this last one reduces its size dramatically because of a disaster -bottleneck effect- or because of a population split -founder effect-.
In the exposed example, one of the islands where exposed to a natural disaster that killed most of the hibiscus plants. This event caused the loss of some alleles and the setting of others. Among them, the allele that codes for orange hibiscus plants got to set, increasing its frequency in the population.
Option B is correct. The limited population size after the lava flow resulted in a limited gene pool, causing genetic drift in future generations of hibiscus plants on this island.
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which of the following is/are among the functions of the eukaryotic cytoskeleton? select all that applya.Helps in cell divisionb. Aggregates to form the nuclear envelope c.Transports organelles within cells d. Binds cells together e. Gives cells shape and structure
a. Helps in cell division
d. Binds cells together
e. Gives cells shape and structure.
What is cytoskeleton?The cytoskeleton is a complex network of protein filaments that runs throughout the cytoplasm of eukaryotic cells. It provides the cell with mechanical support, enables the movement of organelles and vesicles, and helps to maintain the cell's shape. The main components of the cytoskeleton are microtubules, microfilaments, and intermediate filaments. Microtubules are cylindrical, stiff structures that form the backbone of the cytoskeleton and play a key role in cell division. Microfilaments are thin, flexible fibers made of actin that are involved in cell movement and shape changes. Intermediate filaments are intermediate in diameter between microtubules and microfilaments, and they provide the cell with stability and strength.
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For natural selection to occur, three things much be true. Which of the following is NOT one of those?
Question 12 options:
the trait must be passed on to the next generation
there must be a variation within the traits of the population
one trait must be favorable to survive within the ecosystem
the trait must be resistant to mutations
Explanation:
The answer is the trait must be resistant to mutations. For natural selection to occur, three things must be true. These are: (1) there must be variation within the traits of the population, (2) the trait must be passed on to the next generation, and (3) one trait must be favorable to survive within the ecosystem. Natural selection does not require the trait to be resistant to mutations
4. If you are face-to-face with someone who is standing in the standard anatomical position, and you reach out to touch hands, which hand will your left hand touch? Which hand will your right hand touch? What does this mean in terms of describing anatomical directions
Your left hand will touch the right of the person who is standing in the normal anatomical position, and vice versa.
What is the anatomical position?If you reach out to touch hands with someone who is standing in the normal anatomical position while you are face-to-face with them,
Your left hand will touch the right of the person who is standing in the normal anatomical position, and vice versa. The left of the body is on the observer's right and the right of the body is on the observer's left when watching a body in the anatomical posture.
Therefore, your right hand will touch your left hand and your left hand will touch the right of the person standing in an anatomical direction.
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Saprolegnia, a parasitic water mold, parasitizes dying or dead
-blank1 - and has a cell wall composed of -blank2 -, unlike the true fungi, which have cell walls composed of -blank3 -
Answer:
Saprolegnia parasitizes dying or dead fish, and has a cell wall composed of chitin, unlike the true fungi, which have cell walls composed of cellulose.
What is a system formed by the interaction of a community of organisms with their physical environment?
An ecosystem is formed by the interaction of a community of organisms with their physical environment.
An ecosystem, also known as an ecological system, is made up of all the organisms and the physical setting in which they live. The nutrition cycles and energy flows connect these biotic and abiotic elements. Photosynthesis is how energy enters the system and is absorbed by plant tissue.
Animals play a significant part in the transfer of materials and energy through the system by eating plants and one another. They also have an impact on the biomass levels of the microbial and plant communities. In addition to facilitating nutrient cycling by transforming nutrients held in dead biomass back into a form that can be easily utilized by plants and microorganisms, decomposers also release carbon into the atmosphere through the breakdown of dead organic matter.
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Which hormones act as neurotransmitters? vasopressin | oxytocin | insuline | ephinephrine
The hormones that act as neurotransmitters are vasopressin and oxytocin.
Vasopressin and oxytocin are two hormones that are produced in the hypothalamus and stored in the pituitary gland.
They are released into the bloodstream when they are needed, but they can also act as neurotransmitters in the central nervous system. They play important roles in regulating various functions such as fluid balance, blood pressure, and childbirth.
Insulin and epinephrine, on the other hand, are not considered neurotransmitters. Insulin is produced by the pancreas and regulates the level of glucose in the bloodstream. Epinephrine, also known as adrenaline, is produced by the adrenal gland and is involved in the body's response to stress and danger.
While these hormones can have an effect on the brain and the nervous system, they are primarily classified as hormones and not neurotransmitters.
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Which one of the following organisms eats a tertiary consumer in this food web? Clam peacock flounder manga ray triggerfish
Peacock flounder eats a tertiary consumer in a food web. Therefore, option B is correct.
What is a food web?All the food networks in a single ecosystem make up a food web. Each organism in an ecosystem is a link in a number of food chains. Energy and nutrients can go along different food chains as they move through the ecosystem.
There are some trophic levels in a food web such as producer, primary consumer, secondary consumer, tertiary consumer, and decomposer.
Peacock flounder eats a tertiary consumer in a food web. Therefore, option B is correct.
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The chart below describes two different organisms living in the same ecosystem. Based on the information in the chart, which of the following is most likely the correct explanation of the relationship of the two organisms? A graph of population over time. Population is represented on the y axis. Time is represented on the x axis. A blue line is drawn rising and falling up and down over time, representing the population of one organism. A red line, representing the population of the second organism, is drawn rising and falling up and down over time with roughly the same shape as the blue line, but shifted slightly to the left. Competitors for the same food Predator and prey An invasive species and a native species Two types of prey hunted by the same predator
I unfortunately can not see where the chart is to help you
when you are doing a calorimeter lab, are you measuring the temperature of the system or surroundings?
When you are doing calorimeter lab, you are measuring the temperature of the surroundings.
What does calorimeter do?Amount of heat absorbed or evolved by chemical reaction can be determined by measuring the change in temperature in the surroundings, for that heat raises or lowers the temperature of surroundings.
Calorimetry is a fundamental dosimetry method to measure absorbed dose, that is the absorbed energy in matter due to radiation divided by the mass of matter. This is done by measuring the increase in temperature due to the absorbed energy of radiation and comparing it with calibrated heat source.
The process of measuring the amount of heat released or absorbed during chemical reaction is called calorimetry.
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Regions of the body which require large surface area for absorption, such as the cells covering the inner surface of the small intestine, often have .... a. centriolesb. ciliac. flagelad. microvilli
Small intestine villi that protrude into the intestinal cavity significantly increase the surface area available for food absorption and produce more digestive secretions.
A square millimeter of tissue has 10 to 40 villi, or 6,000 to 25,000 per square inch.
How does pyruvate become ethanol?fermentation. Pyruvate molecules are used in the fermentation process (more particularly, the alcoholic fermentation) to create ethanol. Alcohol dehydrogenase and pyruvate decarboxylase are the extra enzymes at play. Pyruvate will be converted by the two enzymes to acetaldehyde, which will subsequently be converted to ethanol.
Which organ has a significant surface area and unique structures for nutrient absorption?The small intestine has microscopic structures called villi that carry out this absorbing function. The small intestine has a vast surface area due to its folds and villi, which is beneficial for absorbing nutrients.
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which baby belongs to which family?
The family each baby belongs to is given below:
Baby A with Blood Type B belongs to Mr. and Mrs. Black
Baby B with Blood Type AB belongs to Mr.and Mrs. Smith
Baby C with Blood Type A belongs to Mr. and Mrs. Brown
What is the family that each baby belongs to?The family that each baby belongs to based on their blood type can be determined as follows using the cross in a Punnett square:
Mr. and Mrs. Smith can produce the following offspring: A x B = A, B, or AB.
Mr. and Mrs. Brown can produce the following offspring: O x A = OA or A alone
Mr. and Mrs. Black can produce the following offspring: AB x O = A or B alone.
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Isovolumetric relaxation and ventricular filling (two phases of the cardiac cycle) take place during __________. Yes, both occur during ventricular diastole when the ventricles are not actively contracting and ejecting blood.
Isovolumetric relaxation and ventricular filling (two phases of the cardiac cycle) take place during ventricular diastole.
Yes, both Isovolumetric relaxation and ventricular filling occur during ventricular diastole, which is the period of the cardiac cycle when the ventricles are not actively contracting and ejecting blood.
During ventricular diastole, the ventricles are in a relaxed state, and the pressure within the ventricles falls below the pressure in the atria. This causes blood to flow from the atria into the ventricles, which is known as ventricular filling.
The period of ventricular diastole is also characterized by Isovolumetric relaxation, which refers to the passive flow of blood from the ventricles into the aorta and pulmonary trunk as a result of the pressure gradient between the ventricles and the great vessels.
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Which of these is required for natural selection to occur?unequal reproductive successinheritanceindividual variationfitness(All of these answers are correct)
Reproduction, inheritance, variation in organism fitness, and variation in individual attributes across population members are the four conditions necessary for natural selection to occur.
Which is necessary for natural selection to take place?Natural selection requires heritable variation in a trait as well as differential survival and reproduction connected to trait possession. The simple process of natural selection causes long-term population changes in living things.
Which four natural selection factors are there?Evolution is governed by four principles: variation, inheritance, selection, and time. These are viewed as components of the evolutionary process driven by natural selection. In fact, it is so straightforward that it can be divided into five simple processes, referred to here as VISTA: Variation, Inheritance, Selection, and Application.
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Why would a pathogen evolve ways to modulate inflammation (give 2 examples)?
1. To evade recognition by the immune system. Pathogens may evolve mechanisms to modulate inflammation in order to reduce or even prevent the host's immune response, allowing them to replicate and spread before the immune system can respond.
2. To reduce damage to the host. Pathogens may also evolve mechanisms to modulate inflammation in order to reduce the amount of tissue damage caused by the immune response, which may help them to survive longer within the host.
Your memories of personal information such as what you wore to work yesterday or what you ate for breakfast this morning are stored in: A) procedural memory B) semantic memory C) episodic memory D) eidetic memory
C) The episodic memory is where recollections of private information are kept, such as what you wore to work yesterday or what you had for breakfast this morning.
What kind of memory is it when you can recall what you had for breakfast?Examples of episodic memory are the recollections of your breakfast, your first day of college, and your cousin's wedding. One of the two varieties of declarative memory is episodic memory. Declarative memory is a category of long-term memory that describes information that may be readily recalled, such as facts, figures, or experiences.
What kind of memory do you use to recall your own experiences?Explicit Memory Consciously recalled recollections of directly experienced events are known as episodic memories. Using retrieval cues, episodic memory is a dynamic process that uses both mnemonic and non-mnemonic cognitive skills to mentally reconstruct the past.
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What state do all minerals start in right before their formation?
A. plasma
B. gas
C. ice
D.liquid
E. solid
Answer:
The answer of this question is E.
when a carbohydrate is formed by linking two monosaccharides by a condensation reaction, we get water plus which of the following?
Whenever a particular carbohydrate is formed by the linking of two monosaccharides by a condensation reaction, we get water plus a disaccharide.
The correct option is option a.
Carbohydrates are basically biological macromolecules which is made up of carbon, hydrogen, as well as oxygen. Carbohydrate chains are produced in different lengths and all the biologically important carbohydrates belong to three basic categories which are the monosaccharides, disaccharides, and polysaccharides.
Monosaccharides are the most basic units of carbohydrates which combine with each other to form disaccharides or polysaccharides. When carbohydrate is formed by the linking of two monosaccharides through a condensation reaction, we get water along with a disaccharide.
--The given question is incomplete, the complete question is
"When a carbohydrate is formed by linking two monosaccharides by a condensation reaction, we get water plus which of the following?
a. Disaccharide
b. Starch
c. Protein
d. None of the above"--
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