It is TRUE that the enzymatic degradation of the starchy endosperm in the embryo is set in motion by water.
The embryo and endosperm, two separate structures, begin to form in angiosperms as a result of a double fertilization event. By providing nutrition, safeguarding the embryo, and regulating embryo growth by functioning as a mechanical barrier throughout seed development and germination, the endosperm plays a crucial part in sustaining embryonic growth.
In the cereal endosperm, there are four primary cell types: the starchy endosperm, the aleurone layer, transfer cells, and the area around the embryo. Cereal grains' starchy endosperm, which provides nutrients for seed germination and seedling establishment, is the main tissue for accumulating seed reserves.
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which of the following is an example of a carbohydrate? multiple choice question. glycogen dna vitamins cholesterol
Glycogen is an example of a carbohydrate.
The majority of consumers are at least somewhat familiar with the macromolecules known as carbohydrates. Some people follow "low-carb" diets in order to reduce weight. In contrast, athletes frequently "carb-load" before significant tournaments to make sure they have enough energy to compete at a high level. Granules, fruits, and vegetables are all natural sources of carbs, which are in reality an important component of our diet. The body uses carbohydrates for energy, notably the simple sugar glucose. Additionally, in people, animals, and plants, carbohydrates serve additional critical purposes.
(CH2O)n, where n is the number of carbon atoms in the molecule, is a representation of carbohydrates. In other words, in the molecules of carbohydrates, the proportion of carbon, hydrogen, and oxygen equals 1:2:1. Three subtypes of carbohydrates—monosaccharides, disaccharides, and polysaccharides—are recognized in the literature.
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if you had extracted dna from animal cells instead of plant cells, what cell barrier would have been different? what do plant and animal cells have that bacterial cells do not?
If you had extracted DNA from animal cells instead of plant cells then cell walls will be different among them. Plant and animal cells have a cell membrane that bacterial cells do not.
Plant cell walls frequently contain other polymers like lignin, suberin, or cutin that are incorporated or anchored there. Land plants lack the glycoprotein-containing polysaccharides like carrageenan and agar that are present in the cell walls of algae. Bacterial cell walls are composed of peptidoglycan. Polysaccharides, pseudo peptidoglycan, and glycoprotein S-layers are just a few of the compounds that can be found in the cell walls of archaea. Fungi's cell walls are made of N-acetylglucosamine polymer chitin. Because their cell walls are comprised of biogenic silica, diatoms are exceptional in this regard. A cell wall is an external structural layer that is present in several cell types. It offers security, a filtering system, and structural support to the cell. Many eukaryotes, including mammals, lack cell walls, in contrast to the majority of prokaryotes and some eukaryotes, including plants, algae, and some animals (except mollicute bacteria). They serve as pressure channels, keeping the cell from overexpanding when water enters, which is one of their main roles.
The cell wall structure, which varies between taxonomic groups and species, may be influenced by the kind of cell and the stage of development.
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which type of cell receives information from the external world and conveys this information to the brain?
Sensory neurons are the type of cell that receives information from the external world and conveys this information to the brain.
Sensory neurons, also called afferent neurons, are specialized cells that transmit sensory information from sensory receptors in the body to the central nervous system, which includes the brain and spinal cord. They are responsible for detecting different types of stimuli, such as light, sound, touch, temperature, and chemicals, and converting them into electrical signals that can be processed by the nervous system. Sensory neurons are found in various parts of the body, including the skin, eyes, ears, nose, and tongue, and brain they play a critical role in our ability to perceive and interact with the environment.
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Why do we only see Neanderthal input in non-African genomes? Neanderthals never interbred with Homo sapiens in Africa. Only Y chromosome DNA can be transmitted from Neanderthal genomes.
There are Neanderthal traces in the genes of people all across the planet. However, an analysis of tens of thousands of Icelanders reveals that the Neanderthal legacy had little to no influence on the majority of their physical characteristics or risk of disease.
What is the Neanderthal input in non-African genomes?Scientists determined that all modern non-African people have some Neanderthal heritage in their DNA after sequencing the Neanderthal genome.
Researchers at Princeton University have now shown evidence of Neanderthal heritage in African populations as well, and the origin of this ancestry sheds new light on the evolution of humanity.
Therefore, In Africa, Homo sapiens did not interbreed with Neanderthals. Neanderthal genomes can only transmit Y chromosomal DNA.
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Part A: Over time in polluted areas, what will LIKELY happen to the population of peppered moths?
A: stay the same
B: become darker in color
C: become lighter in color
D: become extinct
Part B: Based on your response for Part A, what caused the change in the peppered moths' population?
A: random chance
B: natural selection
C: genetic engineering
D: meiosis
Part A: It is LIKELY that the population of peppered moths in polluted areas will become darker in color over time.
Part B: The change in the peppered moths' population is most likely caused by natural selection.
What is natural selection?Natural selection is the process by which organisms that are better adapted to their environment tend to survive and reproduce more successfully than other organisms. This can lead to the accumulation of advantageous traits in a population over time and ultimately to the evolution of new species. Natural selection occurs as a result of differences in the survival and reproduction rates of individuals due to variation in their inherited characteristics.
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which of the following best describes the contraction phase of the excitation-contraction coupling reaction? choose the best answer. view available hint(s)for part g which of the following best describes the contraction phase of the excitation-contraction coupling reaction? choose the best answer. actin pushes on myosin to shorten its length, thereby shortening the muscle. an action potential travels down the t-tubule in order to release ca2 from the sarcoplasmic reticulum. actin and myosin filaments slide past each other to shorten the sarcomere, bringing z disks closer together. an action potential travels down the axon of a motor neuron in order to release acetylcholine onto the motor end plate.
The correct answer is "Actin and myosin filaments slide past each other to shorten the sarcomere, bringing z disks closer together."
Excitation–contraction coupling describes how an electrical signal, the action potential (AP), traveling along the plasmalemma evokes calcium release from the SR in the region of the myofibrils, causing a change in actin–myosin interactions, which leads to muscle contraction. In cardiomyocytes, the transduction between the electrical signal and Ca2+ release from the JSR is effected by a transmitter, which is, in fact, calcium itself.
During the contraction phase of excitation-contraction coupling, the sarcomeres in the muscle fibers contract as the actin and myosin filaments slide past each other, shortening the muscle. This causes the Z disks to move closer together, leading to muscle contraction.
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what evidence suggests that the changes were due to the transformation procedures you performed? 4. what advantage would there be for an organism to be able to turn on or o
The evidence that suggests that the changes were due to transformation procedures you performed is that the bacteria are growing in + plasmid LB broth.
The fact that bacteria grew in the ampicillin and + plasmid LB broth shows that the bacteria ingested the plasmid bearing the resistance gene. They would all have passed away if they hadn't. Also, the absence of growth in the - plasmid containing plates is proof that the plasmid interfered with bacterial development.
The resistant gene can be activated if ampicillin is present, allowing the bacteria to fight against ampicillin's lethal effects. The gene can be turned off if the bacteria isn't present, though. This would enable cells to almost manage their own demise.
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Complete question is:
What evidence suggests that the changes were due to the transformation procedures that you performed?
What advantage would there be for an organism to be able to turn on or off particular genes in response to certain conditions?
explain how plankton can be classified by size, what are the different size categories (including names) for marine plankton.
Bacteria, archaea, algae, protozoa, and drifting or swarming organisms that live in brackish estuaries and salty oceans are examples of marine plankton. Similar to sea plankton, freshwater plankton is a type of algae that lives in lakes and rivers.
Plankton are organisms that are present in water or the air but are unable to push against a stream (or wind). The individual organisms that make up plankton are known as plankters. They are essential for the survival of numerous small and big aquatic organisms, including fish, whales, and bivalves.
Planktons are categorized according to their lifecycles as follows:
Holoplankton - Organisms such as algae and jellyfish, that remain in a planktonic state throughout their whole lives.
Meroplankton - It is an organism that only exists as plankton during some phases of its life cycle, such as the larvae of starfish, worms, sea urchins, fish, etc.
According to their size, planktons are divided into:
Megaplankton - They are larger than 20 cm in size, such as jellyfish, tunicates, pyrosomes, etc.
Macroplankton - They range in size from 2 to 20 cm.
Mesoplankton – organisms ranging in size from 0.2 to 20 mm.
Microplankton – their size range from 20 to 200 m and include huge protists, protozoans, and the majority of phytoplankton.
Nanoplankton – size spans from 2 to 20 m, including protists, diatoms, and algae
Picoplankton – size range from 0.2 to 2 meters,such as bacteria and chrysophytes.
Femtoplankton – Viruses in the marine femtoplankton with a size of less than 0.2 m.
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when a hair cell stereocilia bend away from the kinocilium,
voltage-gated calcium channels open when the membrane potential of the hair cell increases. it does not release neurotransmitters. it releases neurotransmitters. it generates an action potential to communicate with the auditory nerve.
If a hair cell bends toward the kinocilium it releases neurotransmitters, thus the correct option is B.
The hair cells' cilia bend in response to mechanical stimulation. Trap doors in the next cilium are connected by fine, thread-like tip linkages. The VIIIth cranial nerve experiences neural impulses as a result of the tip link being stretched as a result of the hair cells being bent. The vestibular system's hair cells differ significantly from those in the auditory system in that they only contain one highest cilium, known as the kinocilium. The cell depolarizes when the stereocilia are bent in the direction of the kinocilium, increasing afferent activity via neurotransmitter .The cell becomes hyperpolarized when the stereocilia are bent away from the kinocilium, which lowers afferent activity via neurotransmitters.
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The Complete question is :
If a hair cell bends toward the kinocilium...
A. It generates action potentials
B. It releases neurotransmitters
C. Both A and B
D. Neither A nor B
in what way do megasporangia differ from microsporangia?
Megasporangia and microsporangia are specialized structures in plants that are responsible for the production and dispersal of gametophytes, which are the cells that will eventually develop into gametes (sperm and egg cells).
Megaspores, the bigger of the two spore sizes produced by the plant, are produced by megasporangia, also referred to as megasporocytes. The female gametophytes that will eventually produce the egg cells are formed by the megaspores.
Microspores, the smaller of the two spore types produced by the plant, are formed by microsporangia, also referred to as microsporocytes. The sperm cells will eventually be produced by the male gametophytes, which are transformed into microspores.
Megasporangia and microsporangia typically differ in size, shape, and position inside the plant in terms of anatomy and structure. Compared to microsporangia, which are frequently smaller and found in clusters, megasporangia are typically larger and more isolated.
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In pine trees, pollen grains get to the ovule via the _____. a) eggs b) integument c) megaspore d) pollen cone e) micropyle.
Pollen grains enter the ovule via the micropyle in pine trees. A small opening in the ovule's integuments through which sperm can enter the ovum.
The micropyle is a small opening in the ovule near the hilum that is retained in the seed after fertilization. Seeds absorb water primarily through the micropyle when soaked. Micropyle also assists in respiration and gas exchange. Five carpels, or sometimes fewer, fuse to form an ovary with the same number of chambers. Each chamber contains one to two pendulous anatropous ovules connected to the central column with the raphe facing the placenta and the micropyle pointing outward.
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Which characteristic was not necessary in order for plants to colonize land?A. Vascular tissue for moving water throughout the plant
B. a waxy cuticle to reduce water loss
C. the ability to screen ultraviolet light
D. the development of thick spore walls to protect the spore from dehydration
E. development of embryos protected inside other tissues
C. the ability to screen ultraviolet light was not necessary in order for plants to colonize land.
Although it is undoubtedly beneficial for shielding the plant from damaging UV rays, it is not necessary for a successful colonization. More crucial for plants to survive in a terrestrial environment were other adaptations including vascular tissue for transporting water throughout the plant, a waxy cuticle to prevent water loss, and the development of strong spore walls to guard the spore from dehydration. To colonize the land the plant need system to acquire water and nutrient given by roots, and way to reduce water losses, also prevention against high intensity sunlight.
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glucose is in a high concentration in extracellular fluid. how can we increase the movement of glucose into a cell?
The activity of the cotransporter increases the glucose concentration inside the cells.
Glucose is transported across the apical plasma membrane of intestinal epithelial cells by the sodium-glucose cotransporter (SGLT, purple protein in the figure at right). Transport via the sodium-glucose cotransporter is referred to as secondary active transport because transport depends upon the Na+ gradient (which is established using the energy of ATP hydrolysis).
Just after a meal, there will be abundant glucose in the lumen of the intestine, favoring absorption. Towards the end of the absorptive phase of a meal, however, the cotransporter is still able to move glucose into the cell (uphill against its concentration gradient) because of the strong Na+ concentration gradient. This is what is depicted in the figure, where the size of the type for Na+ and glucose indicates their relative concentrations.
The Na+ gradient is established through active transport by the Na+/K+-ATPase (red), which is located on the basolateral membrane. The activity of the cotransporter increases the glucose concentration inside the cells, allowing glucose to be transported into the ECF via the glucose transporter (GLUT,blue). Facilitated diffusion of glucose into the ECF is a passive process, since glucose flows down its concentration gradient.
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What would happen if the inside solution of a cell is isotonic as well as the solution outside of it?
homeowners can reduce their ecological footprint through conservation landscaping techniques. describe how one conservation landscaping technique can reduce home electricity consumption during cold winters.
Add soil amendments or mulch to landscaped areas to prevent evaporation water loss from the soils around trees as well as other landscaped vegetation helps in reducing the home electricity consumption during cold winters.
Explain about the conservation landscaping technique.A strategically positioned tree, bush, or vine can serve as a windbreak, provide efficient shade, and lower your energy costs.
Trees that are strategically placed can reduce energy use in ordinary homes by up to 25%.This solar heat gain can be decreased by including shade from landscaping components. As much as 6° F can be deducted from the ambient air temperature by trees' shading combined evapotranspiration (a process through which a plant continuously moves as well as releases water vapour).Thus, add soil amendments or mulch to landscaped areas to prevent evaporation water loss from the soils around trees as well as other landscaped vegetation helps in reducing the home electricity consumption during cold winters.
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in an early study of black spruce trees in canada's hudson bay area, researchers studying nuclear dna found no reduction of genetic diversity in post-ice-age populations, and thus no evidence of founder effects. why did a recent study, using mitochondrial dna (mtdna), show different results regarding the founder effects in black spruce?
Option a. Mitochondrial DNA (mtDNA) is maternally inherited, and thus it is passed on only through seeds, while it is absent from pollen.
Comparison of present and previously published data supports thehypothesis of a recent progenitor-derivative relationship between these species, red spruce presumably being derived by allopatricspeciation of an isolated population of black spruce during the Pleistocene.The DNA found in mitochondria, which are cellular organelles found in eukaryotic cells that transform chemical energy from food into a form that cells can utilise, such as adenosine triphosphate, is known as mitochondrial DNA (mtDNA or mDNA) (ATP). Only a small amount of the DNA in a eukaryotic cell is contained in the mitochondria; the majority of the DNA is found in the cell nucleus and, in plants and algae, also in plastids like chloroplasts.
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Full Question: In an early study of black spruce trees in the Hudson Bay area, researchers studying nuclear DNA found no reduction of genetic diversity in post Ice Age populations, and thus no evidence of founder effects. Why did a recent study, using mitochondrial DNA(mtDNA) show different results regarding the founder effects in black spruce?
a. Mitochondrial DNA (mtDNA) is maternally inherited, and thus it is passed on only through seeds, while it is absent from pollen.
b. Seeds cannot disperse as easily and as far as the pollen, which is carried by the wind.
c. Different populations of the black spruce have similar composition of nuclear DNA, but very differentwith respect to mtDNA composition.
d. all of the above
in the sense of alternation of generations, how many generations are included in a mature pine seed?
In the sense of alternation of generations, there are two generations included in a mature pine seed: the sporophyte generation and the gametophyte generation.
The sporophyte generation is the dominant phase in the life cycle of the pine seed, and is characterized by the presence of a multicellular, spore-producing structure, such as a cone or a seed. This structure contains the mature sporophytes, which produce the male or female gametophytes through meiosis.
The gametophyte generation, in turn, is characterized by the presence of tiny, single-celled structures called gametes, which are specialized for reproduction. These gametes eventually give rise to the next generation of sporophytes.
The alternation of generations is a fundamental aspect of the life cycle of many plants, including pines, and is crucial for their survival and reproduction. The presence of two generations, each with distinct characteristics and functions, allows for efficient production and dispersal of offspring, ensuring the continuation of the species over time.
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Need this for a biology project
The jelly fish and the butterflies both have complete life cycles.
How is the lifecycle of a jelly fish similar to that of a butterfly?The lifecycle of a jellyfish is similar to that of a butterfly in that both undergo a metamorphosis, which is a transformation from one form to another as they grow and mature.
In both the jellyfish and butterfly, the early stages are characterized by rapid growth and transformation, and the later stages represent the mature form that is capable of reproduction.
In summary, the lifecycle of a jellyfish and a butterfly are similar in that they both undergo a metamorphosis, which is a transformation from one form to another as they grow and mature.
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which age structure diagram best fits the population of the united states? age structure diagram a. stage 3: stable growth b. stage 1: rapid growth c. stage 2: slow growth d. stage 4: zero growth
The age structure diagram that best fits the population of the United States is (D) stage 4: zero growth.
A stage 4 age structure diagram typically shows a relatively equal distribution of individuals across all age groups, with a slight bulge in the middle age groups (e.g. 30-50 years). This reflects a population that has low birth rates, low death rates, and a low population growth rate, resulting in a stable population size.
This description closely matches the current demographic situation in the United States, where the birth rate has been declining over the past few decades, and the population growth rate has been relatively low. Additionally, the largest age cohort in the United States is currently middle-aged adults, with relatively even numbers of individuals in the younger and older age groups.
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When does a recessive sex-linked trait show up for a female?
A recessive sex-linked trait shows up in a female when an abnormal gene on the X chromosome from each parent would be required since a female has two X chromosomes.
Sex-linked diseases are passed down in families from either X or Y chromosomes. X and Y are sex chromosomes.
In each pregnancy, if the mother is a carrier and the father has the disease, the expected outcomes are a 25% chance of a healthy boy, a 25% chance of a carrier girl, a 25% chance of a girl with the disease and 25% chance of a boy with the disease.
If both the mother and the father have the disease, the expected outcomes are a 100% chance of the child having the disease, whether boy or girl.
In males (who have only one X chromosome), a mutation in the copy of the gene on the single X chromosome leads to the condition. Females (who possess two X chromosomes) should have a mutation on both X chromosomes to be affected by the condition.
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How do cells regulate the expression of genes?
a) with stop and start codons
b) by secreting unnecessary proteins
c) with transcription factors
d) by winding or unwinding chromosomes
Cells regulate the expression of genes with transcription factors.
What are Transcription factors?Proteins called transcription factors are involved in the process of turning DNA into RNA, or transcribed DNA. A large variety of proteins—aside from RNA polymerase—called transcription factors start and control how genes are transcribed.
One distinguishing characteristic of transcription factors is the presence of DNA-binding domains that enable them to bind to particular DNA regions known as enhancer or promoter sequences.
Some transcription factors contribute to the formation of the transcription initiation complex by binding to a DNA promoter sequence close to the transcription start site.
Therefore, Cells regulate the expression of genes with transcription factors.
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the embroyblast eventually differentiates into the
zygote. blastocyst primary germ layers. sperm and egg
The embryoblast eventually differentiates into the blastocyst. Early in the development of an embryo, a formation known as a mammalian blastocyst forms.
It has a layer of trophoblast cells on the surface known as trophectoderm as well as an inner cell mass (ICM), also known as an embryoblast, which later develops into an embryo. The blastocoel, a chamber filled with fluid, and the inner cell mass are both enclosed by this layer. Trophoblast is the name for the trophectoderm in the late blastocyst. The trophoblast creates the chorion and amnion, the two foetal membranes that cover the embryo. The two sources of the placenta are the mother's underlying uterine tissue and the embryonic chorion, or the portion of the chorion that creates villi.
The complete question is:
The embroyblast eventually differentiates into the
a) zygote
b) blastocyst
c) primary germ layers
d) sperm and egg
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What role do lichens and moss play in primary succession?
As generations of the lichens die, their dead remains gets decompose and are added in the soil.
In general , Primary succession is considered as the places in the community that is never occupied. Hence , Pioneer communities also help in the enrichment of the soil. When the generations of the mosses or lichens die, their dead remains gets decompose and gets added to the soil. This soil then become enriched and can support variety of plant life.
Also , the Lichens are known as the pioneer community as they are the first to colonize bare rocks, mountains, and cliffs. They also helps in corrosion of rocks and accumulation of a important minerals and organic matter.
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How does temperature and rainfall affect the distribution of biomes?
Answer:
Temperature and rainfall affect the distribution of biomes because biomes are determined by climate, which in turn is largely determined by temperature and precipitation. Climate dictates which species can survive in a certain area and therefore the type of biome that will form. Warmer temperatures and more precipitation will typically lead to more productive biomes, like tropical rainforests, while colder temperatures and less precipitation will lead to less productive biomes, like deserts.
Explanation:
Which substances leave the blood by diffusing directly through the plasma membrane of endothelial cells?
-Carbon dioxide
-Steroid hormones
-Oxygen
Carbon dioxide, Oxygen and Steroid hormones leave the blood by diffusing directly through the plasma membrane of endothelial cells.
We now move on to tissues generated from mesoderm, which is a precursor to ectoderm and endoderm in the embryo. Between the ectoderm and endoderm, this layer of cells in the center develops and diversifies to perform a variety of supportive tasks. The body's connective tissues, blood cells, and blood vessels are all derived from it, along with muscle, kidney, and a wide variety of other organs and cell types. Blood vessels are where we start.
Blood is essential for the survival of nearly all tissues, and the blood vessels' linings, or endothelial cells, are what allow for the blood supply. Endothelial cells are incredibly flexible and can change their size and configuration to meet local needs.
By expanding through cell migration into practically every area of the body, they build a flexible life-support system. It would be impossible for tissues to develop or mend if endothelial cells weren't extending and remodelling the blood vessel network. An increase in interest in endothelial cell biology has resulted from the fact that cancerous tissue is just as reliant on a blood supply as normal tissue.
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The specific amino acid sequence in a protein is its:___________ A) secondary structure. B) tertiary structure. C) zero order structure. D) quaternary structure. E) primary structure
The specific amino acid sequence in protein is its : E) primary structure.
What is meant by amino acid?Amino acids are the molecules that combine to form proteins and amino acids and proteins are building blocks of life. When proteins are digested, then amino acids are left and body uses amino acids to make proteins to help body break down the food.
Amino acids are organic compounds that have both amino and carboxylic acid functional groups. Although hundreds of amino acids exist in nature, the most important are alpha-amino acids, which comprise of proteins and only 22 alpha amino acids appear in the genetic code.
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Top layer Middle layer Bottom layer Drag the labels to identify the components of whole blood after centrifugation. View Available Hint(s) Reset Help Plasma Top layer Middle layer Bottom layer Buffy coat Erythrocytes Leukocytes Hematocrit Platelets
Plasma in the top stratum. Buffy cloak, in the middle ,Erythrocytes in the bottom stratum
Red blood cells (RBC), white blood cells (WBC), and platelets are the four main components of blood. The blood divides into three different parts after initial centrifugation: plasma, buffy coat, and erythrocytes. After initial centrifugation, the upper layer is referred to as the plasma and is made up of proteins, water, and clotting factors. Plasma makes up about 55% of the overall blood volume. The buffy coat, which makes up about 1% of the overall volume, is the middle layer. It is a thin coating of platelets and leukocytes (WBC). Erythrocytes serve as a representation of the centrifugation tube's lower half. It almost equals 45%.
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What did Gregor Mendel control in his experiments with pea plants?
Gregor Mendel control in his experiments with pea plants is the traits of the pea plants.
Gregor Mendel chose to study pea plants because they have easily identifiable traits, such as height, seed shape, and flower color. He controlled these traits by cross-pollinating the plants and carefully tracking the inheritance of these traits through several generations.
For example, Mendel would cross-pollinate a tall pea plant with a short pea plant, and then observe the traits of the offspring. He would then cross-pollinate the offspring with each other, and continue to track the inheritance of the height trait through several generations.
Through his experiments, Mendel was able to identify the principles of inheritance, including the concepts of dominant and recessive traits, and the law of segregation. His work laid the foundation for the field of genetics and our understanding of how traits are passed down from one generation to the next.
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What is the purpose of a differential white blood cell count?
A differential white blood cell count (or differential WBC count) is a medical test that determines the different kinds of white blood cells in a blood sample.
The human body has five different kinds of white blood cells (WBCs): neutrophils, lymphocytes, monocytes, eosinophils, and basophils. The amount of immature white blood cells present in the body as well as the relative proportions of these five different kinds of WBCs are determined by the differential WBC count.
Leukemia, infections, and inflammatory disorders are just a few of the ailments and diseases that the test findings may be used to monitor and diagnose. It is also used to monitor therapeutic response and evaluate therapeutic effectiveness.
The differential WBC count is frequently conducted alongside other tests, such as a blood smear or a peripheral blood smear, a complete blood count (CBC), and the differential WBC count.
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part of the uterus which allows the females eggs move through the fallopian tubes is called ?
Answer: Your fimbriae are finger-like projections at the ends of each of your fallopian tubes. Each month, they sweep a newly released egg from your ovaries into your fallopian tubes.
Explanation: Hope this helps!
Answer:
fimbriae
Explanation:
The fimbriae are finger-like projections at the end of the fallopian tubes that help to "catch" the egg as it is released from the ovary and guide it into the fallopian tube where fertilization may occur.
ALLEN
