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Related to Meristematic cell: procambium, quiescent center, meristematic tissue


(mĕr`istĕm'), a specialized section of plant tissue characterized by cell division and growth. Much of the mature plant's growth is provided by meristems. Apical meristems found at the tips of stems and roots increase the length of these sections. Stems and roots may also grow in thickness or in diameter through cell divisions in lateral, or secondary, meristems, found just under the surface along the length of the stem or root. Tissues derived from differentiated lateral meristem are known as secondary tissues. In one type of lateral meristem, called cambium, or vascular cambium, the cells divide and differentiate to form the conducting tissues of the plant, i.e., the woodwood,
botanically, the xylem tissue that forms the bulk of the stem of a woody plant. Xylem conducts sap upward from the roots to the leaves, stores food in the form of complex carbohydrates, and provides support; it is made up of various types of cells specialized for each of
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, or xylem, and the phloem (see barkbark,
outer covering of the stem of woody plants, composed of waterproof cork cells protecting a layer of food-conducting tissue—the phloem or inner bark (also called bast).
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; stemstem,
supporting structure of a plant, serving also to conduct and to store food materials. The stems of herbaceous and of woody plants differ: those of herbaceous plants are usually green and pliant and are covered by a thin epidermis instead of by the bark of woody plants.
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). The growth in diameter of tree trunks is wholly dependent on the division of cambium cells. Other meristematic tissues include corkcork,
protective, waterproof outer covering of the stems and roots of woody plants. Cork is a specialized secondary tissue produced by the cork cambium of the plant (see meristem, bark).
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 cambium, which divides to produce waterproofing and protective cork tissue at the surface of the stem and root; and intercalary meristems, modified apical meristems found in different positions than either apical or lateral meristems, e.g., in the stem nodes of grasses. See also differentiationdifferentiation,
in biology, series of changes that occur in cells and tissues during development, resulting in their specialization. This, in turn, permits a greater variety of organisms.
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, in biology.



formative tissue, a plant tissue characterized by prolonged cell-division activity. Some cells of the meristem—the initiating cells—remain in the embryonic phase of development and, by dividing, provide uninterrupted growth of the plant body. Other cells of the meristem gradually become differentiated, forming various derivative tissues (integumentary, conducting, mechanical, basal).

Meristems originate from the protomeristem of the embryo, which develops into the apical and lateral meristems. The apical meristems—the growing points of shoots and roots—are formed very early in the embryo. The formation of the cotyledons and later of the leaf rudiments on the growing point of the shoot results in differentiation of the lateral meristems into the procambium and cambium. Meristematic tissue is partially preserved in some parts of the plant body during plant growth, for example, in the roots (Pericycle—rhizogenic meristem), the nodes of the shoot, and the medullary rays of the stem. Intercalary meristem is temporarily preserved in the buds, the inter-nodes of the shoot (Gramineae), and the bases of the petioles.

Because almost all living, mature tissues (except the sieve tubes) possess the capacity to divide, new, or secondary, meristems, such as Phellogen (forming cork tissue) and callus, may arise in the plant. Meristem cells differ from the cells of permanent tissues in that they are smaller, densely arranged, and almost cubical in shape (only cells of the procambium and cambium are elongated). They usually have a thin primary membrane and a dense protoplast, in which the nucleus and nucleolus occupy a central position. The endoplasmic network is poorly developed; there are many ribosomes. The mitochondria and dictyosomes are only slightly differentiated. The vacuoles are very small, and the plastids are in the form of protoplastids. Meristem cells are characterized by high metabolic activity.


Esau, K. Anatomiia rastenii. Moscow, 1969. (Translated from English.) Lehrbuch der Botanik fur Hochschulen, 30th ed. Jena, 1971.


Formative plant tissue composed of undifferentiated cells capable of dividing and giving rise to other meristematic cells as well as to specialized cell types; found in growth areas.
References in periodicals archive ?
The results of micronucleus assay in meristematic cells for negative, positive and experiment groups are present also in table 2.
10] De Campos JMS and Viccini LF (2003) Cytotoxicity of aluminum on meristematic cells of Zea mays and Allium cepa.
Investigations using high-tech scanning electron and confocal microscopes showed that these stems contained normal-size meristematic cells.
Ultrapetala and these genes, notes Fletcher, regulate where and how meristematic cells accumulate.
Similarly, the initiation of new organs and new apical cells and the coordinated changes among zones of meristematic cells during histogenesis and differentiation are particularly promising areas for intensive study.
Counting chloroplasts (proplastids) in meristematic cells of shoot tips or root tips is cumbersome, requires serial cuttings for electron microscopy, and has been carried out so far in only about six species of spermatophytes (references in Butterfass, 1979; Cel'niker & Maj, 1979).
Activity of meristematic cells gives rise after a few days to a cordate but somewhat asymmetrical prothallus with two wings of almost the same size (Fig.
The answer lies in the remarkable regenerative capacity of meristematic cells located in the tips of plant roots and shoots.
For instance, meristematic cells give rise to secondary metabolites as part of the plant's survival strategy under stress conditions imposed by living microorganisms (biotic stress) or the physical environment (abiotic stress).
However, in the case of secondary protective tissues the meristem itself is rarely distinguished, and normally the term storied cork is used, covering both the meristematic cells and their derivatives.
Ontogenetically, the monocot cambium originates from the primary thickening meristem (PTM), which is a region of actively dividing meristematic cells, located around the apical meristem and extending down the periphery of the stem, where this continuation of PTM is referred to as STM.
Effects of radiofrequency electromagnetic fields on seed germination and root meristematic cells of Allium cepa L.