The terms "bidirectional and fixed point of initiation" accurately describe how the chromosome replicates in E. coli.
A single double-stranded DNA molecule can produce many identical DNA helices through the process of DNA replication. A strand from the original molecule plus a freshly generated strand make up each molecule. The DNA uncoils and separates before replication. A replication template called a replication fork is created. DNA polymerases add new nucleotide sequences in the 5′ to 3′ orientation once DNA primers attach to the DNA.
In the leading strand, this addition is continuous, whereas in the lagging strand, it is fragmented. After the DNA strands have finished elongating, they are examined for errors, repaired, and given telomere sequences at the ends.
Hence, bidirectional and fixed point of initiation" accurately describe how the chromosome replicates in E. coli.
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most hereditary forms of breast and ovarian cancer arise in women who inherit a mutant copy of either the brca1 or brca2 gene, each of which encodes a proteins involved directly in
Most hereditary forms of breast and ovarian cancer arise in women who inherit a mutant copy of either the brca1 or brca2 gene, each of which encodes a proteins involved directly in repairing DNA double-strand breaks.
Jewish women of Ashkenazi or Eastern European ancestry may be more likely to inherit a BRCA1 gene mutation, which increases their chance of developing breast cancer.
For instance, mutations in the BRCA1 and BRCA2 genes are inherited in an autosomal dominant form, which means that all it takes for a person to become more likely to get cancer is one copy of the changed gene in each cell.
BRCA1 and BRCA2: An inherited mutation in the BRCA1 or BRCA2 gene is the most frequent cause of hereditary breast cancer. These genes aid in the production of proteins in healthy cells that repair DNA damage. These genes' mutated forms can result in aberrant cell proliferation, which can cause cancer.
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skin color of a certain species of fish is inhearited by a single gene with four diffrent alliese how many types of gamets would be possible with this organism
There are 4 different types of gametes would be possible in skin colour of fish controlled by single gene.
As per Mendel's law of dominance, "Only one type of the characteristic is passed down to the next generation when parents with distinct, opposing qualities are crossed together. Only the dominant phenotypic characteristic will be present in the hybrid offspring.
In case of fish each diploid parent will have two type of alleles, so it mean both parent can form 4 different type of variation of single gene of fish.
Hence, single parent have two allele of single gene.
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people with neurofibromatosis will show varying degrees of the disease; this is because of the genetic principle of:
Genetic flaws (mutations) are passed down from a parent or develop spontaneously after conception are what lead to neurofibromatosis.
Depending on the kind of neurofibromatosis, particular genes like NF1 may be involved. NF1 is a gene that can be found on chromosome 17. This gene makes the neurofibromin protein, which aids in controlling cell growth. A family history of neurofibromatosis is the main risk factor for the condition. About half of those with NF1 and NF2 received the condition from a parent who had it. People with NF1 and NF2 who do not have affected relatives are more likely to have a novel gene mutation.
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during normal mitotic cell division, a parent cell having 9 chromosomes will produce 2 daughter cells that have how many chromosomes?
Diploid cells divide mitotically to form diploid cells. Therefore, if the parent cell has four chromosomes, each daughter cell will have four as well.
Which of the following cell cycle stages does not take place during mitosis?The single option that does not take place during mitosis is crossing across, as explained. Genetic material is exchanged between homologous chromosomes during crossing over, which takes place during prophase I of meiosis.
For 64 cells, how many generations of mitosis are needed?The following is another way to put it: 1⟶2⟶4⟶8⟶16⟶32⟶64 . This indicates that after each round of mitosis, all cells within a generation create twice as many daughter cells. Therefore, following six generations of mitotic division cells create 64 daughter cells.
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microbial fuel cells have the potential to aid waste treatment and other forms of bioremediation. label the following small-scale representation of one such device.
microbial fuel cell (MFC) is a bio electrochemical device that generates electricity by using electrons obtained from anaerobic substrate oxidation.
The microbial fuel cell (MFC) is made up of two parts: an anode and a cathode separated by a proton exchange membrane (PEM). An MFC, like any other battery, generates electricity through the use of chemical energy. Two electrodes are held in separate chambers in an MFC. The bacteria are housed in an anaerobic anode chamber. This means that it is devoid of oxygen. The cathode chamber is an aerobic chamber. This means it contains oxygen. The labeling are: A-Reduction, B-Oxidation, C-Anode, D-proton permeable membrane, E-Organic waste products, F-Cathode.
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FILL IN THE BLANK. pyruvate dehydrogenase activity would be at its lowest when ___ . nad levels are high co2 levels are elevated atp levels are low pyruvate levels are high pyruvate dehydrogenase is phosphorylated
Dehydrogenase activity would be at its lowest when pyruvate dehydrogenase is phosphorylated.
What is glycolysis?The process by which glucose is broken down to provide energy is known as glycolysis. It generates two pyruvate molecules, ATP, NADH, and water. There is no need for oxygen throughout the process, which occurs in the cytoplasm of a cell. Both aerobic and anaerobic creatures experience it.The first stage of cellular respiration, which takes place in all organisms, is called glycolysis. The Krebs cycle comes after glycolysis during aerobic respiration. Small amounts of ATP are produced by the cells in the absence of oxygen as fermentation follows glycolysis.For more information on glycolysis kindly visit to
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for each instance of the letter c in the dna template strand (letter g in the non-template strand), which letter should go in the mrna strand?
When each instance of every letter c for dna type template strand (letter g (Guanine) for non-template strand), then (G) letter also goes or should go in the mrna strand.
In DNA/RNA base pairing, A (A) pairs with U (U), and pyrimidine (C) pairs with G (G). The conversion of polymer to RNA|mRNA|template RNA|informational RNA|ribonucleic acid|RNA} takes space at an equivalent time as associate RNA enzyme makes a complementary RNA duplicate of a polymer “template” assortment. example strand is that the polymer strand off that the RNA is synthesized. The coding, or non-template, strand is that the polymer strand complementary to the example strand.
The polymer strand that is a example for RNA synthesis is spoken as as anticoding strand or antisense strand or noncoding strand. The distinctive strand is spoken as cryptography strand or enjoy strand as its base assortment is same as that of freshly synthesized RNA. There area unit four nucleotides, or bases, in DNA: A (A), pyrimidine (C), G (G), and T (T). These bases kind specific pairs (A with T, and G with C).
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Why is there a synaptic delay in gustatory receptors that is not seen in olfactory receptors?.
Delay in gustatory receptors because of gustatory receptors have separate receptor cells and sensory neurons.
The gustatory system is a sensory system for the sense of taste that helps capture stimuli in the form of chemical substances. While the olfactory process starts from the nose which will smell a certain aroma, which is then processed by olfactory nerve cells (olfactory cells). Gustatory receptors occur on the surface of the tongue, whereas olfactory receptors occur on the upper back of the dome of the nose.
Gustatory receptors are composed of dozens of epithelial cells. In each taste cell there is a gustatory hair which functions to generate an action potential when it gets a chemical stimulus that dissolves in saliva. Meanwhile, olfactory receptors activate signaling pathways to generate action potentials when air molecules enter the nose. The action potential reaches the olfactory bulb and then reaches the brain, which is responsible for smell recognition.
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matt is sitting on the couch watching holiday movies with his 80-year-old cat. he forgets the cat is laying on his legs until it gets up to move. what receptors adapted to the constant pressure of the cat on his legs?
Mechanoreceptor adapted to the constant pressure of the cat on his legs.
In somatosensory receptors known as mechanoreceptors, extracellular stimuli are transmitted to intracellular signal transduction via mechanically gated ion channels. The most common types of external stimuli are touch, pressure, stretching, sound waves, and motion. Encapsulated mechanoreceptors are specialized to transmit information regarding touch, pressure, vibration, and cutaneous tension to the central nervous system. There are four main types: Merkel's discs, Meissner's corpuscles, Pacinian corpuscles, and Ruffini's corpuscles
Ion channels in mechanotransducers allow mechanoreceptors to detect mechanical signals. Ions may enter or exit the cell as a result of mechanically disrupting the receptor, leading to electrical depolarization. Action potentials may develop as a result of these depolarizations. These action potentials travel to the brain and spinal cord.
Hence, mechanoreceptors are specialized to transmit information regarding pressure
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is a fingerprint is a simple trait of mendelian inheritance or a complex trait that is strongly influenced by the environment?
According to studies, the development of fingerprints is influenced by both hereditary and environmental variables.
The patterns of skin ridges (referred to as dermatoglyphs) on the pads of the fingers serve as the basis for a person's fingerprints. The soles of the feet, the palms of the hands, and the toes all have these ridges. Although the whorl, arch, and loop patterns are identical in their core, each person's pattern details are unique. There aren't many genes known to play a role in dermatoglyph development. Dermatoglyphs that are aberrant or absent in rare disorders can offer some insight into their genetic origins.
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Restriction enzymes specifically recognize and cut short sequences of dna called.
Restriction enzymes recognize and cut a specific sequence of DNA. Thus the correct answer is option (B).
Bacteria manufacture special proteins called restriction enzymes that cut DNA at specific locations. The restriction enzymes on live bacteria defend them from bacteriophages. As soon as the bacteriophage is identified, its DNA is cleaved at its restriction points. Restriction enzymes are crucial in genetic engineering. They are useful in laboratories and can be identified from bacteria. The recognition sequences, which are short and distinct nucleotide sequences, are recognized by restriction enzymes in DNA. When a DNA sequence is recognized, the restriction enzyme hydrolyzes the bond between neighboring nucleotides and cleaves the DNA molecule. The bacteria prevents the degradation of its own DNA sequences by adding the methyl group at the adenine or cytosine bases within the recognition sequence with the help of the enzyme methylases.
The complete question is:
What is the name of the class of enzymes that recognizes and cuts a specific sequence of DNA?
a) helicases
b) restriction enzymes
c) primases
d) DNA polymerases
e) topoisomerases
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independent assortment of chromosomes occurs during . independent assortment of chromosomes occurs during . mitosis and meiosis i meiosis ii only meiosis i only mitosis and meiosis ii mitosis only
The events that take place during meiosis I are what cause the independent assortment of chromosomes.
Does meiosis 1 or 2 have independent assortment?When homologous pairs prepare to separate during meiosis I of gamete formation, they line up in random orientations at the center of the cell. This is the physical basis for the law of independent assortment.
We now understand that in eukaryotes, meiosis is when this distinct collection of genes occurs. Meiosis is a type of cell division that results in the production of four gametes, or reproductive cells, from a parent cell that has had its chromosome count cut in half.
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Is ATP a product of cellular respiration?.
Cell respiration converts oxygen and glucose into water and carbon dioxide. Water and carbon dioxide are with the aid of- merchandise and ATP is a strength that is converted from the procedure.
Cellular respiration is the system by which organic fuels are oxidized within the presence of an inorganic electron acceptor inclusive of oxygen to provide huge quantities of power, to drive the bulk manufacturing of ATP.
During mobile breathing, the reactants—glucose (sugar) and oxygen—combine collectively to form new products: carbon dioxide molecules and water molecules. Adenosine triphosphate (ATP) is produced because of the form of energy that can be used for other cellular methods.
Mobile respiratory is the technique by which organisms integrate oxygen with food molecules, diverting the chemical energy in those materials into existence-sustaining activities and discarding, waste products, carbon dioxide, and water.
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What 3 products are produced in cellular respiration?.
Three merchandise are produced in cellular respiratory: power (or ATP), carbon dioxide, and water. the products of breathing or respiratory, come from the reactions of cellular breathing.
Cellular respiration converts oxygen and glucose into water and carbon dioxide. Water and carbon dioxide are by means of- products and ATP is a strength that is converted from the procedure.
Cellular breathing is the system by way of which organisms combine oxygen with meal molecules, diverting the chemical energy in those materials into existence-maintaining activities and discarding, waste merchandise, carbon dioxide, and water. for the duration of cell breathing, the reactants—glucose (sugar) and oxygen—integrate collectively to shape new merchandise: carbon dioxide molecules and water molecules. Adenosine triphosphate (ATP) is produced as the shape of strength that may be used for other mobile approaches.
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How is the coordinated transcription of all the genes involved in a particular metabolic pathway brought about in eukaryotes?.
The genes all have the same combination of control elements in their enhancers.
What is transcription?
The act of transcribing a section of DNA into RNA is called transcription. Messenger RNA is the term for DNA segments that have been translated into RNA molecules that can encode proteins (mRNA).
Non-coding RNAs are formed when additional DNA segments are transcribed into RNA molecules (ncRNAs). Only 1-3% of all RNA samples are made up of mRNA. In contrast to mammalian genomic DNA, which may be actively transcribed (in one or more types of cells) and of which the majority is thought to be non-coding RNA (ncRNA), just 2% of the human genome can be translated into mRNA.Hence, the genes all have the same combination of control elements in their enhancers.
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what is the significance of yeast having similar cdks to us? they show homology (similarities) through
The significance of yeast having similar CDKs to us is they show homology (similarities) through evolution.
Cyclin-dependent kinases are a family of protein kinases first discovered for their role in cell cycle regulation. It is also involved in the regulation of neuronal transcription, mRNA processing, and differentiation.
Cyclin-dependent kinases (CDKs) are protein kinases characterized by requiring another subunit (the cyclin) to provide domains essential for enzymatic activity. CDKs play critical roles in controlling cell division and regulating transcription in response to multiple extracellular and intracellular cues.
Cyclin/CDK formation controls cell cycle progression through phosphorylation of target genes such as the tumor suppressor protein retinoblastoma (Rb). Cyclin/CDK activation is induced by mitogenic signaling and inhibited by activation of cell cycle checkpoints in response to DNA damage.
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Which of the following makes a copy of DNA to serve as the pattern for genetic code and protein synthesis?
A. rRNA
B. tRNA
C. mRNA
D. RNA polymerase
The RNA that makes a copy of DNA to serve as the pattern for genetic code and protein synthesis is mRNA. Option C.
What is mRNA?The mRNA is otherwise known as messenger ribonucleic acid. It is the mRNA that is directly synthesized from a DNA template through a process known as transcription.
During transcription, the gene to be expressed is transcribed into mRNA. The resulting mRNA is processed before being transported into the cytoplasm. It contains the triplet codes of the genetic codes, otherwise known as codons. The codons are 3 nucleotide bases that each code for an amino acid.
During translation, each codon on the mRNA is translated to its respective protein and individual amino acids are linked with peptide bonds. This is otherwise known as protein synthesis.
The mRNA binds to the ribosome in the cytoplasm and a tRNA carrying the anticodon for the start codon on the mRNA binds to the ribosome for the translation complex to be formed and form protein synthesis to begin.
In other words, the substance responsible for making copies of DNA to serve the pattern for genetic code and protein synthesis is the mRNA.
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what is the correct term for a tick that feeds on a rabbit during its larval and nymphal stages, but feeds on a cow after it becomes an adult
The correct term for a tick that feeds on a rabbit during its larval and nymphal stages, but feeds on a cow after it becomes an adult is two hosted tick.
The organism that benefits is called the parasite, while the organism that is harmed is called the host. Because the parasite lives and gets food from its host, the death of the host will bring death to the parasite itself.
Types of Parasitism Symbiosis
Parasites that live on the host in parasitism symbiosis are divided into two types of parasitism, namely ectoparasitism and endoparasitism. These two types of parasitism symbiosis have different lives.
Ectoparasites are parasites that live attached to their host's body and take nutrients from outside the human body. Endoparasites are parasites that live inside their host's body.
Example: Fleas and Animals
Fleas are small organisms that get food by sucking the blood of other living things they live in, including cats, dogs, goats, buffalo.
The advantage of fleas is getting shelter and food while animals infested with fleas become uncomfortable and itchy
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FILL IN THE BLANK. ___ , which is closely linked to short-term memory, is a place for doing mental jobs and allows individuals to manipulate and assemble information when making a decision or solving a problem.
Working memory, which is closely linked to short-term memory, is a place for doing mental jobs and allows individuals to manipulate and assemble information when making a decision or solving a problem.
Working memory is the littlest amount of information that can be held in mind and used to execute cognitive tasks. There are three components of working memory:
Phonological loop (verbal working memory).Visuospatial sketchpad (visual-spatial working memory).Central executive.Some examples of working memory are remembering an object that was just seen, keeping and combining concepts in mind, and doing a math problem in one's head. The part of the brain that is thought to have a key role in managing working memory is the prefrontal cortex.
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How do we correctly store products?.
To store products properly 1. Think about the location. 2. Before storing, clean. 3. Check for Adequate Ventilation. 4. Keep Level and Position in mind.
Why is appropriate product storage crucial?Proper food storage not only enables you to make the most of your food budget but also maintains the nutritional value and quality of the products you purchase. Safe food storage can also help prevent foodborne illnesses brought on by dangerous bacteria.
What kind of storage is used?Storage techniques: In general, there are two ways to store things: in bags and in bulk. Bags can be kept in warehouses or out in the open, and bulk grain is kept in silos or bins of varying sizes.
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suppose the wild-type and mutant strains are exposed to uv light, incubated for optimal growth, and observed the next day. make a claim as to which strain would show little or no growth, and why.
Wild-type yeast Schizosaccharomyces pombe will be more resistant to the irradiation of UV light. So, wild-type yeast will show more growth rather than mutant strains.
However, during the stationary phase, the lethality level of wild-type yeast under the irradiation of UV light is higher compared to log phase growth. There’s another factor that affects UV light sensitivity, which is the genetic material. Single genetic material (1c) and duplicated genetic material (2c) in mutant strains have the same level of UV light resistance. At the same time, duplicated genetic material (2c) of wild-type are more resistant to UV light irradiation.
The conclusion would be that duplicated genetic material (2c) has a higher repair mechanism.
Your question is incomplete, but most probably your question was “Which yeast Schizosaccharomyces pombe strain would show little or no growth if irradiated with UV light, and why”
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What are substitution mutations in DNA?.
A substitution mutation is whilst one nucleotide is swapped out for another. these sorts of mutations are the least dangerous of all DNA mutations.
Substitution, as associated with genomics, is a kind of mutation in which one nucleotide is replaced via a distinct nucleotide. The time period can also discuss as the substitute of one amino acid in a protein with a distinct amino acid.
Substitution mutations are a form of mutation in which a single nucleotide is substituted with a one-of-a-kind nucleotide. Examples of (base-pair) substitutions: a purine is substituted with an exclusive purine (A → G) or a pyrimidine, for a different pyrimidine (C → T).it may occur either via outside agents or inner mismatches. Base substitutions are the most fundamental level of alteration, and they occur while one nucleotide is swapped for any other all through DNA replication. as instance, a thymine nucleotide is probably substituted for a guanine nucleotide at some stage in replication.
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In the gal gene system, which protein binds to the activation domain of the activator protein, ultimately blocking transcription in the absence of galactose?.
The protein that binds to the activation domain of the activator protein, ultimately blocking transcription in the absence of galactose, is called GalR.
What is Galactose?
Galactose is a type of sugar found in milk and other dairy products. It is a monosaccharide sugar, which means it is a single sugar molecule, and it is one of the three main monosaccharides found in nature. Galactose is metabolized in the body along with glucose and fructose and is used in several metabolic pathways. Galactose is essential for the metabolism of some lipids and for the synthesis of certain glycoproteins.
What is GalR?
GalR is a member of the family of G protein-coupled receptors (GPCRs) that are involved in sensing and responding to changes in the concentrations of galactose in the environment. GalR is found in bacteria, fungi, and some higher organisms such as plants and animals. It is involved in the regulation of several metabolic processes, including the transport and metabolism of galactose. GalR is also known to be involved in the regulation of several developmental processes, such as spore formation in yeast, and the regulation of cell differentiation and development in higher organisms.
GalR is a repressor protein that binds to the Gal4 activator and prevents it from binding to the promoter region of the gene and initiating transcription.
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Decide whether each description applies to buck at the beginning or the end of the call of the wild. is the pack leader: expects rules and polite behavior: understands that the wild has no mercy: is part of the world of humans:
The description applies to buck at the beginning or the end of the call of the wild
is the pack leader
Buck at the end of the story
Expects rules and polite behavior:
Buck at the beginning of the story
Understands that the wild has no mercy:
Buck at the end of the story
Is part of the world of humans:
Buck at the beginning of the story
While the reader is made aware of some sort of issue, he or she is not yet aware of its specifics beyond the knowledge that dogs are somehow involved.
In the words "Not alone for himself, but for every tidewater dog," we learn of a character in the novel named Buck, who must be a dog. Since the author alludes to the region from Puget Sound to San Diego—all the way from Washington State to the southernmost point of California—we discover that the book's location may be on the west coast of the United States.
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eye color is a polygenic trait. this means that the pigmentation of the iris is determined by more than one .
It is now known that the colour of the eyes is a polygenic feature, meaning that it is influenced by a number of genes. OCA2 and HERC2 stand out among the genes that influence eye colour. On human chromosome 15, both are present.
How can polygenic inheritance account for the wide range of iris colours?A polygenic inheritance pattern governs eye colour. There are nine different eye hues in humans. Two primary genes and 14 other genes regulate the phenotypic expression of eye colour.
How can genetics affect eye colour?The amount of melanin found in the iris's outermost layers has a direct impact on eye colour. When compared to those with blue eyes, those with brown eyes have significantly less melanin in their iris.
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What is the food worker required to wear when frying donuts in a deep fryer?.
The food worker needs to utilise the right tools to ensure food safety. Hair frequently appears in food, which is an issue. A hair restraint should be worn by the food worker. The hair restraint is a tiny, net-like device used to tie the hair and keep it away from food and other contaminated surfaces.
Following things need to be kept in mind_
Nobody wants hair in their food, thus food workers wear hair covers, nets, body covers, and beard restraints to prevent this from happening.A person should make careful to use appropriate and clean utensils when cooking food. The single-use item can only be opened once.A hair constraint must cover every hair on the head. Beard net should be used to conceal the facial hair. Never let the employee's bangs or any other hairdo dangle outside of the hair constraint.The staff wear safety goggles while preparing the food to protect themselves.To protect oneself from the heat when making meals, people use rubber aprons and heat-resistant gloves.To learn more about food click here:
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the major way that meiosis ii differs from mitosis is that in meiosis ii, the homologues separate. in meiosis ii, a synaptonemal complex is formed. in meiosis ii, the daughter cells are haploid. in meiosis ii, the homologous sister chromatids align at the metaphase plate as a tetrad. in meiosis ii, a pair of sister chromatids move to the pol
The major way that meiosis ii differs from mitosis is that in meiosis ii is the cells in meiosis II are haploid.
What distinguishes meiosis II from mitosis in terms of importance?In mitosis, sister chromatids separate, and in meiosis II, homologous chromosomes separate. While mitosis takes place in diploid cells, meiosis II happens in haploid cells. Mitosis is referred to as "equatorial division," whereas meiosis II is referred to as "reductional division."
Sister chromatids separate in meiosis II while homologous chromosomes separate in meiosis I. Whereas Meiosis I results in 2 diploid daughter cells, Meiosis II results in 4 haploid daughter cells.
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b. scientific theories are ideas that have been tested very well many times. have scientific theories been proved? explain your answer. (2 points)
The scientific theories are ideas that have been tested very well many times this is becacuse science do not believe in any thing that can not be , hece the scientific theories needsto be proved an can be reproduced in another part.
What is the scientific theory ?A scientific theory can be described as the explanation of an aspect that concern the natural world as well as universe which has been repeatedly tested.
It should be noted that the scientific theory should be one that is well-tested, with broad explanation of a natural phenomenon berfore it cxan be accepted.
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A lewis structure is a two-dimensional representation of a molecule that does not necessarily show what shape that molecule would take in three dimensions. From the given lewis structure and what you know about vsepr theory, identify the shape of the molecule.
From the given lewis structure and what we know about VSEPR theory, the shape of the molecule will be bent shape or V shape.
VSEPR theory tells us about the shape of a molecule based on the number of both, bond pairs and lone pairs of electrons around the central atom of the molecule.
In the given molecule Y is the central atom.The central atom has two lone pairs of e-.It makes 2 sigma bonds with two X atoms, so there are two bong pairs of e-.So, there are 2 lone pairs and 2 bond pairs of electrons, around the central atom. VSEPR theory states that a molecule has a bent shape or V shape if the central atom is surrounded by two lone pairs and two bond pairs of e- in lewis structure.
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2. draw conclusions how is it useful for organisms to have an uneven distribution of mitochondria among their cells?
Because various cells have distinct tasks, it is advantageous for organisms to have an unequal distribution of mitochondria throughout their cells. The powerhouse of the cell and the body is the mitochondria, an organelle bound by a double membrane that creates energy.
Inequal numbers of mitochondria are found in the body's cells at various locations. As demonstrated, The heart has a larger concentration of mitochondria because it uses more energy to pump blood throughout the body, which demands more energy.
The pituitary and liver are both engaged in metabolic activity. The placement of mitochondria depends on the energy requirements of the body's organs. This facilitates the distribution of energy throughout the areas of the body where it is most required. To meet their energy needs, cells with higher metabolic activities have more mitochondria than cells with lower metabolic activities.
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Full Question :
Draw conclusions how is it useful for organisms to have an uneven distribution of mitochondria among their cells?
