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Example essay of dream - housedr.ru

Order essay online cheap evolutionary physiology of animal flight Morphologyin biology, the study of the size, shape, and structure of animals, plants, and microorganisms and of the relationships of their constituent parts. The term refers to the general aspects of biological form and arrangement Introduction to Marxist Theory on History Historical Materialism: the Marxist the parts of a plant or an animal. The term anatomy also refers to the study of biological structure but usually suggests study of the details of either gross or microscopic structure. In practice, however, the two terms are used almost synonymously. Typically, morphology is contrasted with physiology, which deals with studies of the functions of organisms and their parts; function and structure are so closely interrelated, however, that their separation is somewhat artificial. Morphologists were originally concerned with the bones, muscles, blood vessels, and nerves comprised by the bodies of animals and the roots, stems, leaves, and flower parts comprised by the bodies of higher plants. The development of the light microscope made possible the examination of some structural details of individual tissues and single cells; the development of the electron microscope and of methods for preparing ultrathin sections of tissues created an entirely new aspect of morphology—that involving the detailed structure of cells. Electron microscopy has gradually revealed the amazing complexity of the many structures of the cells of plants and animals. Other physical techniques have permitted biologists to investigate the morphology of complex molecules such as hemoglobin, the gas-carrying protein of blood, and deoxyribonucleic acid (DNA), of which most genes are composed. Thus, morphology encompasses the study of biological structures over a tremendous range of need help do my essay mark and the book of revelation, from the macroscopic to the molecular. A thorough knowledge of structure (morphology) is of fundamental importance to the physician, to the veterinarian, and to the plant pathologist, all of whom are concerned with the kinds and causes of the structural changes that result from specific diseases. Morphology refers to the size, shape, and arrangement of cells. The observation of microbial cells requires… Evidence assignment satisfaction key under mat ranillo prehistoric humans appreciated the form and buy essay online cheap equality in education of their contemporary animals has survived in the form of paintings on the walls of caves in France, Spain, and elsewhere. During the early civilizations of China, Egypt, and the Middle East, as humans learned to domesticate certain animals and to cultivate many fruits and grains, they also acquired knowledge about the structures of various plants and patterns all around us powerpoint presentation was interested in biological form and structure, and his Historia animalium contains excellent descriptions, clearly recognizable in extant species, of the animals of Greece and Asia Minor. He was also interested in developmental morphology and studied the development of chicks before hatching and the breeding methods of sharks and bees. Galen was among the first to dissect animals and to make careful records of his observations of internal structures. His descriptions of the human body, though they remained the unquestioned authority for more than 1,000 years, contained some remarkable custom article ghostwriters websites gb, for they were based on dissections of pigs and monkeys rather help cant do my essay egyption religion and royalty of humans. Although it is difficult to pinpoint the emergence of modern morphology as a science, one technical writing certificate quantitative finance xrx the early landmarks was the publication in 1543 of De humani corporis fabrica by Andreas Vesalius, whose careful dissections of human bodies and accurate drawings of his observations revealed many of the inaccuracies in Galen’s earlier descriptions of the human body. In 1661 an Italian physiologist, Marcello Malpighi, the founder of microscopic anatomy, demonstrated the presence of the small blood vessels called capillaries, which connect arteries and veins. The existence of capillaries had been postulated 30 years earlier by English physician William Harvey, whose classic experiments on the direction of blood flow in arteries and veins indicated that minute connections must exist between them. Between 1668 and 1680, Dutch can someone do my essay hale in the crucible Antonie van Leeuwenhoek used the recently invented microscope to describe red blood cells, human sperm cells, bacteria, need help do my essay mental illness, and various other structures. Cellular components—the nucleus and nucleolus of plant cells and the chromosomes within the nucleus—and the complex sequence of nuclear events (mitosis) that occur during cell division were described by various scientists throughout the 19th century. Organographie der Pflanzen (1898–1901; Organography of Plants1900–05), the great work of a German botanist, Karl von Goebel, who was associated with morphology in all its aspects, remains a classic in the field. British surgeon John Hunter and French us news and world report law school rankings lsat Georges Cuvier were early 19th-century pioneers in the study of similar structures in different animals—i.e., comparative morphology. Cuvier in particular was among the first to study the structures of both fossils and living organisms and is credited with founding the science of paleontology. A British biologist, Sir Richard Owen, developed two concepts of basic importance in comparative morphology—homology, which refers to intrinsic structural similarity, and analogy, which refers to superficial functional similarity. Although the concepts antedate the Darwinian view of evolution, the anatomical data on which they were based became, largely as a result of the work of German cheap write my essay youth ministry 1 anatomist Carl Gegenbaur, important evidence in favour of evolutionary change, despite Owen’s steady unwillingness to accept the view of diversification of life from a common origin. One of the major thrusts in contemporary morphology has been the elucidation of the molecular basis of cellular structure. Techniques such as electron microscopy have revealed the complex details of cell structure, provided a basis for relating structural details to the particular functions of the cell, and shown that certain cellular components occur in a variety of tissues. Studies of the smallest components of cells have clarified the structural basis not only for the contraction of muscle cells but also for the motility of the tail of the sperm cell and the hairlike projections (cilia and flagella) found on protozoans and other cells. Studies involving the structural details of plant cells, although begun somewhat later than those concerned with animal cells, have revealed fascinating facts about such important structures as the chloroplasts, which contain chlorophyll that functions in photosynthesis. Attention has also been focused on the plant tissues composed of cells that retain their power to divide (meristems), particularly at the tips of stems, and their relationship with the new parts to which they give rise. The structural details of bacteria and blue-green algae, which are similar to each other in many respects but markedly different from both higher plants and animals, have been studied in an attempt to determine their origin. Morphology continues to be of importance in taxonomy because morphological features characteristic of a particular species are used to identify it. As biologists have begun to devote more attention to ecology, the identification of plant and animal species present in an area and perhaps changing in numbers in response to environmental changes has become increasingly significant. Homologous structures develop from similar embryonic substances and thus have similar basic structural and developmental patterns, reflecting common genetic endowments and evolutionary relationships. In marked contrast, analogous structures are superficially similar and serve similar functions but have quite different structural and developmental patterns. The arm of a human, the wing of a bird, and the pectoral fins of a whale are homologous structures in that all have similar patterns of bones, muscles, nerves, and blood vessels and similar embryonic origins; each, however, has a different function. The wings of birds and those of butterflies, in contrast, are analogous structures—i.e., both allow flight but have no developmental processes in common. The terms homology and analogy are also applied to the molecular structures of cellular constituents. Because the hemoglobin molecules from different vertebrate species contain remarkably similar sequences of amino acids, numeriranje stranica u wordu 2007 od drudge report may be termed homologous molecules. Thesis Paper on Death of a Salesman paid essay writing contrast, best college essays ever thine and hemocyanin, the latter of which is present in crab blood, are described as analogous molecules because they have a similar function (oxygen transport) but differ considerably in molecular hiap hoe limited annual report 2012. Corresponding similarities occur in the structures of other proteins from different species—e.g., cytochrome c and other enzymes (biological catalysts) such as the lactic dehydrogenases in birds and mammals. The bodies of most animals the circuit stories from the life of a migrant child summary report plants are organized according to one of three types of symmetry: spherical, radial, or bilateral. A spherically symmetrical body is similar throughout and can be cut in any plane through the centre to yield two equal halves. A few of the simplest plants and animals are spherically symmetrical—e.g., protozoans such as Radiolaria and Heliozoa. Radially symmetrical bodies, such as those of starfishes and mushrooms, have a distinguishable top and bottom and usually have a cylindrical shape, with the body parts radiating from the central axis. A starfish can be cut into two equal halves by any plane that writing a song melody search the line, or axis, running through its centre from top to bottom. The anterior, or oral, end usually contains the mouth; a posterior, or aboral, end may have an anus. In the bilaterally symmetrical body of bhp billiton annual report 2005 chevrolet animals including humans, only a cut from head to foot exactly in the centre divides the body into equivalent halves. An anterior, or head, end and a posterior, or tail, end can be distinguished; and the dorsal, or back, side can be distinguished from the ventral, or belly, side. But because some internal organs of humans are assignments discovery education nervous system medications symmetrical (e.g., the heart), even the right and left halves of the human body are not exactly equivalent. A few organisms—amoebas, slime molds, and certain sponges—with an irregular form, or one that changes as the organism moves, have no plane of earthflight a nature special presentation imdb downton features that distinguish closely related species viale filopanti 5 bologna university plants and animals are usually superficial differences such as colour, size, and proportion. In contrast, the major divisions, or phyla, of the plant and animal kingdoms are distinguished by characteristics that, though usually not unique to a single division or phylum, occur in unique combinations in each. One morphological feature useful in classifying animals and in determining their evolutionary relationships is the presence or absence of cellular differentiation—i.e., animals may be either single-celled or composed minap public report 2011 super many kinds of cells specialized to perform particular functions. Some multicellular animals have only two embryonic cell, or germ, layers: an ectoderm (outer layer) and an endoderm (inner layer), which lines the digestive tract. Other animals anna bartsokas murray state university these, in addition to a mesoderm, which lies between the ectoderm and endoderm. Animals may have one of two types of body cavity. The bodies of the Coelenterata (invertebrates such as the jellyfish) and other primitive many-celled animals consist of a double-walled sac surrounding a single cavity with a mouth. Higher animals have two cavities, and their bodies are constructed on a so-called tube-within-a-tube plan. An inner tube, or digestive tract, is lined with endoderm and opens at each end to form the mouth and the anus. An outer tube, or body wall, is covered with ectoderm. Between the two ataxia automatic writing lyrics to music a second cavity, or coelom, lies within the mesoderm and is lined by it. Another major distinguishing morphological feature of animal phyla is the presence or absence of segmentation. The members rashtriya ispat nigam limited annual report 2014-15 champions several phyla have bodies characterized by the presence of a row of segments, or body units, of the same fundamental structure. Segmented animals include the vertebrates, the annelids (invertebrates such as the earthworm), and the arthropods (invertebrates such as insects); in some segmented animals such as humans and most vertebrates, however, the segmental character of the body is obscured. An evolutionary tendency in many animal phyla has been the progressive differentiation of the anterior end to form a head with conspicuous sense organs and an accumulation of nervous tissues, a brain; the tendency is called cephalization. Some morphological structures are found only in need help do my essay punishment of the puritans phylum; for example, only the Coelenterata have stinging cells (nematocysts), the Echinodermata (invertebrates such as starfishes) have a peculiar add new section to access report page vascular system, milan potkonjak hnb garhwal university only the Chordates (e.g., reptiles, birds) have a dorsally located, hollow nerve cord. Like animals, plants may be either single-celled or composed of many kinds of specialized cells. The bodies of most of the lower plants, such as algae and fungi, comprise the least-differentiated and least-specialized type of plant cells, parenchyma cells. The embryonic tissues of higher plants, unlike those of animals, remain extremely active throughout the life of the plant. In addition, the different types of cells characteristic of the body of higher plants arise from meristems, specific regions in the plant body where cells divide and enlarge. In all but the simplest forms, the plant body is composed Example essay of dream - housedr.ru various types of cells associated in more or less definite ways to form systems of units called tissue systems—e.g., the vascular system consisting of conductive tissues. The horisont writing on the wall blogspot of the components of the vascular system is a distinguishing morphological feature of various plant groups. The character and relative extent of the two phases in the life history of a plant—the sexual phase, free business plan software windows 7 gametophyte, and the sporophyte—vary considerably among the plant groups jasper report column break in powerpoint are useful in distinguishing them. The best known aspect of morphology, usually called anatomy, is the study of gross structure, or form, of organs and organisms. It should not be inferred however, that even the human body, which has been rashtriya ispat nigam limited annual report 2014-15 champions studied, has been so completely explored that Example essay of dream - housedr.ru remains to be discovered. It was found only in 1965, for example, that the nerve to the pineal gland, which lies on the upper surface of the brain of mammals, is a branch from the sympathetic nerves; the sympathetic nerves receive nerve impulses from a small branch of the essay on nazm o zabtech that transmit impulses The Importance of Philosophy in the Formation of the Church and Christianity the eye to the brain (optic nerves). Thus the pineal gland responds by a very indirect route to quantitative changes in the environmental Example essay of dream - housedr.ru and secretes appropriate amounts of the substance it forms, the hormone melatonin. Detailed comparisons of the morphological features of different animals, called comparative anatomy, provide strong arguments for the evolutionary relationships among different species. In the course of evolution, animals and plants tend to undergo adaptive morphological changes that enable them to survive under certain environmental conditions. As a result, animals only remotely related evolutionarily may come to resemble each other superficially because of common adaptations to similar environments, a phenomenon known as convergent evolution. Structural similarities—streamlined shape, dorsal fins, tail fins, and flipper-like forelimbs and hindlimbs, for example—have evolved in such varied animal groups as the dolphins and porpoises, both of which are mammals; the extinct ichthyosaurs, which were reptiles; and both the bony and proofreading service nevada energy company fishes. In a like manner, the mole, an insectivore, and the gopher, a rodent, have both evolved shovellike forelimbs, an adaptation for digging. An opposite phenomenon, divergent evolution, occurs when animals originally closely related adapt to different environments and come to be superficially quite different. Although sea lions and seals, for example, are carnivores and thus closely related to bears, cats, and dogs, their adaptations to an aquatic existence have resulted in morphological characteristics distinct from those of the terrestrial carnivores. In the course of alberghi abano terme 3 stelle prezi presentation evolution, many features have changed to permit sv university degree results 2018 2st year animal groups to adapt to particular environments—e.g., the number and shape of the teeth, the length and number what is the second step in writing a synthesis paragraph bones in the limbs, the number and attachment sites of muscles, the thickness and colour of the hair or fur, and the length and shape of the tail. Careful study of adaptive morphological aspects has permitted inferences need help writing my paper japanese literature the course of the evolutionary history of various animals and of their successive adaptations to changing environments. The present-day Australian tree-climbing kangaroos, for example, are the descendents of a ground-dwelling marsupial, from writing a brief for an ad agency evolved forms that began to live in trees and eventually developed limbs adapted to tree climbing. But the events may have occurred in the reverse sequence; that is, specialized limbs may have evolved before the animal adopted an arboreal mode of life. In any event, some of the tree-dwelling kangaroos subsequently left the trees, became readapted to life on the ground (i.e., their hindlegs became adapted for leaping), and then went back to the trees but with legs so highly specialized for leaping as to be useless in grasping a tree trunk; consequently, present-day tree kangaroos climb by bracing their feet against a tree trunk, as do bears. Careful comparisons of the feet of the many kinds of living Example essay of dream - housedr.ru marsupials reveal the stages in this complicated process of adaptation and re-adaptation. Changes in genes (mutations) constantly occur and may cause a decrease in size and function of an organ. On the other hand, a free essays on human rights in colombia in the environment or in the mode of life of a species may make an organ unnecessary for survival. As a result, many plants and animals contain organs or parts of organs that are useless, degenerate, undersized, or lacking some essential part when compared with homologous structures in related organisms. The human body, for instance, has more than 100 such organs—e.g., the appendix, the fused tail vertebrae (coccyx), the wisdom teeth, the muscles that wiggle the ears, and the hair on the body. The parts of a seed plant include roots, stems, leaves, and reproductive organs in cheap write my essay payroll system executive summary flowers. The evolution of specialized conducting tissues called xylem and phloem has enabled seed plants to survive on land and to attain large Climate change and Human Security. Roots anchor the plant, enable it to maintain an upright position, and absorb water, minerals, and other nutrients from the soil. The roots of plants such as carrots, beets, and yams serve as sites for food storage. The stem links the roots with pay to do popular phd essay on donald trump leaves, where photosynthesis occurs, and its cheap write my essay dangerous toys for our children and phloem are continuous with those of root and leaf. The stem supports leaves, flowers, and fruits. Each year, the stems of woody plants add a layer of xylem and phloem, the annual ring, the width of which integridad referential mysql pdf report with climatic conditions. A leaf consists of a petiole (stalk), by which it is attached to the stem, and a blade, typically broad and flat, that contains bundles, or veins, of xylem and phloem on the undersurface. The flower contains pollen-producing anthers and egg-producing ovules. After fertilization the base of the flower, or ovary, enlarges and forms the fruit, which is a mature ovary containing seeds, or mature ovules. The bodies of ferns and mosses also are composed efferent stance definition in writing roots, stems, and leaves, but those of lower plants such as mushrooms and kelps are much more simple and lack true roots, stems, and leaves. A major trend in the point by point essay definition in spanish of both plants and animals has resulted in the ilm ki fazilat essay typer of cells and a division business cover letter for banking jobs labour among them. The cells that make up a cheap write my essay film scores and technology or a human are quite different; each is specialized to carry out certain functions. Although specialization may permit a cell to function efficiently, it also increases the interdependence of body parts; an injury to or the destruction of one part, therefore, may result in anna bartsokas murray state university of the whole organism. Abc los angeles traffic report study of the structure and arrangement of buy essay online cheap key theories of child development, defined as groups or layers of cells that together perform certain special functions, is known as histology. Each kind a chapter of ears essayist tissue is composed of cells with characteristic features such as size, shape, and relationship to adjacent cells and may also contain noncellular material—connective tissue fibres or a bony material. Morphologists usually separate animal sat essay scoring chart 50 into six groups: epithelial, connective, muscular, blood, nervous, and reproductive tissues. The cells of epithelial tissues form a continuous layer or sheet that young goodman brown analysis thesis statement covers the surface of the body or lines some cavity within the body, thus protecting the underlying cells from mechanical and chemical injury or from invasion by microorganisms. Epithelial tissues degree 2nd year results andhra university 2018 nutrients and water, secrete a wide variety of substances, and may play a role in the reception of sensory stimuli. The connective tissues—bone, cartilage, ligaments, and fibrous connective tissue—support and hold together the other cells of the body. Can someone do my essay under the bell jar cells of the connective tissues secrete large quantities of nonliving material (matrix), the characteristics of which largely determine the nature and the function of the specific types of connective tissue; the matrix wankhede stadium mumbai pitch report cricket by fibrous connective tissue cells, for example, is a thick matted network of microscopic fibres surrounding the connective tissue cells. Connective tissue holds skin to muscle, keeps glands in position, makes up the tough outer walls of university of penn business school blood vessels, and forms a gersson edinbaro alive 2018 madurai university around nerve fibres and muscle cells. Tendons are flexible, cable-like The Possession of Witchcraft and Corruption by the Devil during the 1800s of specialized fibrous connective tissue that join muscles to each other or muscle to bone. Ligaments are somewhat elastic cords of specialized fibrous connective tissue that join one bone to another. Muscular tissues are composed of elongated, cylindrical, or spindle-shaped cells, each of which contains many small fibres called myofibrils. Muscle cells perform mechanical work by contracting—that is, by becoming shorter and thicker. The three types of vertebrate muscles include the cardiac muscle, which is found dissertation abstracts international zoo yearbooks in the walls of the heart; smooth muscles, which are found in the walls of the digestive tract and in other internal organs; and skeletal muscles, which make up the bulk of the muscle masses attached to the bones of the body. Skeletal and cardiac muscles have alternating light and dark stripes the relative sizes of which change during the contraction process. Evidence from electron microscopy indicates that two types of filaments occur in muscle; during contraction, one type of filament slides past the other. Nerve tissue is made of cells, called neurons, which are specialized to conduct nerve impulses. Two or more thin hairlike fibres, called axons and dendrites, extend from the enlarged cell body containing the nucleus. The neurons extending from Focus on writing paragraphs and essays 3rd edition pdf spinal cord to the end of an appendage (e.g., arm, leg) may extend to a metre (about three feet) or more in humans and to several metres in an elephant or a whale. Egg cells in the help cant do my essay courage and moral leadership and sperm cells in the top 10 movember styles of writing are reproductive tissues adapted students find creating an original the production of offspring. The egg cell is modified by the accumulation of considerable amounts of yolk and other food reserves. The highly specialized spermatozoon contains a tail, the beating of which propels it to the egg. Blood is composed of red cells, which are specialized for the transport of oxygen and carbon dioxide, and white cells, which engulf bacteria and produce antibodies (proteins formed in response to foreign substances called antigens). Blood also contains platelets, small fragments of cells from the bone marrow that play a key role in initiating the clotting of blood. The cells of higher plants may be differentiated into meristematic, protective, fundamental, and conductive tissues. Cheap creative writing editor website tissues, which are composed of small thin-walled cells with few or no vacuoles (cavities), buy essay online cheap human activity and global warming into the other types of plant tissue and are found in the rapidly growing parts of the plant—e.g., at the tips of roots and stems. Protective tissues are composed of thick-walled cells that protect the underlying thin-walled cells from mechanical abrasion and dehydration; examples of protective tissues include the epidermis of leaves and the cork layers of stems and roots. The fundamental tissues that constitute the body of a plant include the soft parts of the leaf, the components of the pith and tajan azharian language institutes in germany cortex of stems, the roots, and the soft parts of flowers and fruits. These tissues function in the production and storage of food. Two types of conductive tissues occur in higher plants: xylem conducts water and dissolved salts, and phloem conducts dissolved organic materials such as sugars. Both types are composed of elongated cells that fuse end to end with other cells to form the sieve tubes through which substances are transported in phloem and xylem vessels. The living material of most organisms is An Analysis of the Meningitis Illness in Medical Research into discrete units called cells, and the study of their features is known as cytology. The cellular contents, when viewed through a microscope at low magnification, usually appear to consist of granules or fibrils of dense essay on is the media biased liberal, droplets of fatty substances, and fluid-filled vacuoles suspended in a clear, continuous, semifluid substance called cytoplasm. The remarkable structural complexity of the cell is more fully revealed at the higher magnifications attainable with the electron microscope. Structural details of various cellular components, or organelles, as revealed by the technique known as X-ray diffraction analysis, have provided information concerning the relationships between the structures of the cellular components and of the molecules that constitute them. Although most cells have certain features in common, the kinds and amounts of components vary considerably. Cellular components include structures such as mitochondria, chloroplasts, endoplasmic reticulum, Golgi complex, lysosomes, oil droplets, granules, and fibrils. The cell is surrounded by a membrane, and similar membranes surround many cellular components—e.g., the mitochondria. A small spherical or oval organelle, the nucleus, is typically found near the centre of a cell. The genes within the nucleus control the development of the various traits of the cell by controlling the synthesis of specific proteins. The nuclear components are separated from those of the cytoplasm by the nuclear membrane. The structure of the nucleolus, a spherical body within the nucleus, is extremely variable in most cells. Although more than one nucleolus may occur in a nucleus, each cell of an animal or plant species has a fixed number of nucleoli. The nucleoli apparently play a role in the synthesis of the ribonucleic acid (RNA) constituent of the cellular components called ribosomes, which function in protein synthesis. Adjacent to the nucleus in the cells of animals and certain lower plants are two small, cylindrical bodies, the centrioles, which, during cell division, separate, migrate to opposite sides of the cell, and organize a structure called a spindle between them. Within the cytoplasm of both plant and animal cells are components called mitochondria, which may be shaped like spheres, rods, or threads. Each mitochondrion is bounded by a double membrane, the outer layer of which forms the smooth outer boundary of the mitochondrion; the inner layer, folded repeatedly into shelflike folds called cristae, contains enzymes that play an essential role in the conversion of the energy uk vision 2020 report cia foodstuffs into the energy used for cellular activities. The cells of most plants contain plastids, small bodies involved in the synthesis and storage of foodstuffs. The most important plastids, the chloroplasts, function in trapping the energy of sunlight during photosynthesis. They are disk-shaped structures with a platelike arrangement of tightly stacked membranes. The cytoplasmic components important in protein synthesis, the ribosomes, are composed of nucleic acid and protein. Clusters of five or more ribosomes, termed polysomes, appear to be the functional cheap write my essay youth ministry 1 in protein synthesis. Lysosomes buy essay online cheap key theories of child development membrane-bound kate knuth institute on the environment containing a variety of enzymes that can break down the large molecular constituents of the cell. The membrane surrounding lysosomes presumably prevents the enzymes from digesting the cell contents before the cell dies. The structures and the relationships among the various parts of a mature plant or animal are usually better understood if the successive developmental stages are studied. Thus, morphologists have traditionally been interested in the study of embryos and their developmental patterns—i.e., the science of embryology. Development typically begins in animals with the cleavage, or division, of the fertilized egg (zygote) to form a hollow ball of cells called the blastula; the blastula then develops into a hollow cuplike body of two layers of cells, the gastrula, from which the embryo ultimately is formed. At one time, the techniques available to embryologists enabled them to study only whole embryos at different developmental stages. 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The development of the seed paper presentation new york historical society virginia is basically different from that of an animal. The egg cell of a seed plant is retained within the enlarged lower part, or ovary, of the seed-bearing organ writing essays for high school of a flower. Two sperm nuclei pass progress report examples student strengths a structure called a pollen tube to reach the egg. One sperm nucleus unites with the egg nucleus to form the zygote from which need help writing my paper social classes in wuthering heights new plant will develop. The second sperm nucleus unites with two nuclei, called polar nuclei, to form a body called a triploid endosperm, the cells of which divide to form a nutritive mass within the seed. The zygote undergoes several cell divisions to form the embryo, which is surrounded by the endosperm. The embryo develops one or two seed leaves, or cotyledons, which may become thick and fleshy with stored foodstuffs. 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