Synthesis and Characterization of Some New Morpholine Derivatives

In this paper a new series of morpholine derivatives was prepared by reacting the morpholine with ethyl chloro acetate in the presence triethylamine as a catalyst in benzene gave morpholin-N-ethyl acetate(1) which reacted with hydrazine hydrate in ethanol, and gave morpholin-N-ethyl acetohydrazide (2) . Morpholin-N-aceto semithiocarbazide (3) were prepared by reacting compound(2) with ammonium thiocyanate , concentrated hydrochloric acid and ethanol as a solvent .Compound (3) reacted with sodium hydroxide and hydrochloric acid to give 5-(morpholin-Nmethylene)-1H-1,2,4-triazole-3-thiol (4) .The new series of 1,2,4-triazol derivatives (5-8) was synthesized by reaction of compound(4) with formaldehyde , DMF as a solvent and different secondary amines. Preparation of new 1,2,4-triazoline derivatives (9) by reaction compound (4) with bromo acetic acid . Reaction of compound (9) with different aromatic aldehyde and dimethyl sulfoxide as a solvent obtained compounds (10-13).

The stomach is a large part of the gastrointestinal tract, particularly in mammals and birds, and is responsible for storing and transporting food to the duodenum (1). Histologically, the stomach is composed of four layers: the mucosa, submucosa, muscularis, and serosa (2). The mucosa consists of simple columnar epithelium, and a number of gastric glands, which meet with stomach lumen through gastric pits. The layer of submucosa composed of connective tissue, blood and lymph vessels, while the muscularis layer consists of smooth muscles, and the layer of serosa, which appear as thin layer, covers the stomach from the outside (2). The parts of the stomach in birds differ from those of mammals. The bird's stomach is characterized by two parts: the glandular part called proventiculus and muscular part known of gizzard (3). In some birds, especially predatory birds, the proventiculus expands and secretes gastric juice during food passage and the gizzard, in some birds serves as teeth, stores the food, digestion and pushing the extract food into the intestines (4). classified by natural history research center and museum / Baghdad University. Both animals were anesthetized by chloroform inhalation and dissected. The stomach was removed and two part were cut from proventiculus and gizzard in the magpie, but the stomach removed three part were cut from cardiac, fundic and pyloric region in the small asian mongoose.
The parts were fixed in Bouin's fluid solution for 22 hours, and the preparation of the tissue section was then completed. They were stained with Harrisʼs Haematoxylin , and Alcoholic Eosin (7). A special stain was used as Alcian blue (AB) -Periodic Acid-Schiff (PAS) to identify the connective tissue (7), and the slides checked and photographed by using a compound light microscope (Meiji) with a camera.

Results:
The histological sections showed that the magpie stomach consisted of two parts: a glandular stomach known as Proventiculus and muscular stomach named a gizzard. The mucosa layer appears in the Proventiculus, which are finger like shaped folds named a plicae, which are confined by the sulcus. The surface is lined by non-ciliated simple columnar epithelium, with a basal oval nucleus. The height of cells vary in length, appearing shorter in the base part of the fold than in the top, all of them based on the basement membrane and the lamina properia is composed of loose connective tissue which is rich in blood vessels as well as the presence of gastric glands (simple tubular gland called superficial gastric gland), which showed a positive response to AB/PAS stain, which opens in the lumen of stomach (Fig.1A,B,C). The submucosa considered as a connective tissue, occupies most of the wall of the stomach. Due to occurrence of a huge gland in this layer called deep gastric glands (compound tubular alveolar glands that separate from connective tissue) as well as blood vessels ( Fig.2A), each gland consists of a number of differentiated alveolar adenomers which vary in size. Each adenomer is composed of secretory units, with each unit consisting of simple cuboidal epithelium (Fig.2B). The histological sections showed that the center of the gland is composed of the tertiary ducts, which collect the excretory material from the secretory units. The stomach cavity has channels, which flow into the main duct. The unit consists of cuboidal cells arranged hierarchically with a center that represents the cavity in which glandular secretions are collected ( Fig.2A). The muscularis externa consists of three smooth muscle fiber layers: the inner layer appears very thin with muscle fibers that extend to support the deep gastric glands, the middle layer that contains muscles arranged longitudinally, and the outer layer that is arranged circularly (Fig.3A). Finally, serosa is composed of loose connective tissue with mesothelium (Fig. 3B). Sections showed that, the mucosa of the gizzard consists of simple columnar epithelium which forms short folds, with gastric pits found between each two folds (Fig.4A). The lamina properia is composed of areolar loose connective tissue and punctuated by simple tubular glands, which are separated from each other by loose connective tissue. The gastric glands open at the base of the gastric pits among the folds, and then the gastric pit fills with an excretory secretion of gastric glands (vertical koilin) covering the gastric folds with horizontal koilin. This represents one of the secretions of the gastric gland and the results showed that the koilin showed a positive response for AB/PAS stain (Fig.4B). Muscularis mucosa appeared scattered and is located in the base of the glands (Fig.5A). The second layer of gizzard, submucosa is composed of loose connective tissue containing blood vessels (Fig.5A). The muscularis externa appeared as a very thick layer, composed from bundles of smooth muscle fibers arranged circularly. These bundles were separated by loose connective tissue. The sections showed where the bundles intersect (Fig.5B). The muscularis externa is covered from the outside by serosa with mesothelium, which appeared to be very rich in the blood vessels (Fig.5C).  The histological study of the stomach for the small asian mongoose consisted of cardiac, fundic, and pyloric regions. The lining of the cardiac stomach contains characteristic primary and secondary gastric folds (Fig.6). The mucosa layer consists of three layers: starting from the frontal area of the stomach lumen is called epithelium lining, which consists of non -ciliated simple columnar epithelium, formed by gastric pits (Fig.  7A), epithelium which includes two types of epithelial cells: the dominant type is mucous neck cells which are positive for the AB/PAS stain (Fig.  7B,C). The second type is parietal cells of spherical shape carrying red color with central nucleus, and appeared scattered within the epithelium (Fig.7D). The epithelium is based on loose connective tissue is called lamina properia. The second layer of the mucosa is interspersed with gastric glands. The two types are: a simple tubular gland, and a type that occupies most of the cardiac stomach, which appears in branched simple tubular gland (Fig.8A,B). The third layer of mucosa is muscularis mucosa, which is an internal muscle layer arranged in a circular form and outer layer arranged in a longitudinal form that appears to be thicker than the secondary folds (Fig.8C), followed by a submucosa which is a loose connective tissue interspersed with many blood vessels and collagenous fiber which is missing gastric glands. The third layer of the stomach wall is the muscularis externa, which is muscle fibers containing two layers: an inner layer with circular arrangement and outer layer with a longitudinal arrangement that appears thick within the wall of the stomach. Finally, the wall of the stomach is surrounded by serosa which is composed of simple squamous epithelium (mesothelium) (Fig.9A,B,C). Histological sections showed the gastric folds of the fundic stomach were more regular, with the fundic glands (branched simple tubular glands) in type (Fig.10). The epithelium consisted of three types of cells, mucous neck cells, which appeared as short columnar cells with longitudinal nuclei located in the upper region of the gastric pits and these cells are positive for AB/PAS stain, parietal cells dominant and occupy most of the tissue, with an oval spherical in shape and a pale nucleus found in the core of the cell. Chief cells were found in between the parietal cells, which are smaller than parietal cells with a dark central nucleus (Fig.11A,B,C,D). The inner layer of the muscularis externa is composed of smooth muscle fibers arranged circularly, but appeared thicker than the outer layer, which was composed of a longitudinal arrangement of smooth muscle fibers. Serosa is thin layer rich with blood vessels (Fig.  12A,B,C). The pyloric stomach had pyloric glands represented as simple tubular glands in type, mucosa formed from mucous neck cells, which appeared to be positive for AB/PAS stain (Fig.13A,B,C) and lack parietal cells. The inner layer of muscularis externa is thinner than the outer layer, and the serosa consisted of one row of simple squamous epithelium (mesothelium) (Fig.  14A,B,C).

Discussion:
Many references refer to the nature of the food eaten by animal, and the way itis obtained will determine the histological structure of the digestive tract (4). The results showed that the stomach of the magpie was composed of two parts: proventiculus and gizzard, similar to many birds (8,9), while the stomach of the small asian mongoose consist of three regions: cardiac stomach, fundic stomach and pyloric stomach, which is consistent with (10). The stomach wall in both species consist of four main layers: mucosa, submucosa, muscularis externa and serosa. This is characteristic of the stomach wall in all vertebrates (11,12). However, there are clear differences in the histological structure of the stomach in the magpie and the small asian mongoose according to the type of nutrition. The proventiculus in magpie composed of mucosa which consist of folds, which is consistent with (13,14), due to the nature of magpie feeding (omnivorous) so the proventiculus needs chemical digestion. These folds increase the surface area of the stomach mucosa lined with simple columnar epithelium. The lamina properia is composed of loose connective tissue, as well as the presence of superficial gastric glands that open in the lumen of stomach. These results are consistent with (15). These glands showed a positive response to the AB/PAS stain due to the presence of mucopolysaccharides, so it was dyed in blue acid reagent, consistent with (11,16). While the submucosa consisted loose connective tissue with deep gastric glands that occupy most of the connective tissue, this is similar to the glands in the black-tailed Crake (Porzana bicolor), which releases mucins and pepsinogen into the stomach cavity through the secretory canal (17). The muscularis externa consisted of three layers: the inner is very thin layer of the muscle fibers extending to support the deep glands, the intermediat layer appeared thicker than the first layer and longitudinally arranged, while the outer layer is circularly arranged. The thickness of the muscularis externa may be help to empty the secretions of the deep gastric glands. These results are consistent with (13) when he study on the Larus canus. The serosa consisted of loose connective tissue. This is consistent with (13). The gizzard (mechanical) wall of Magpie was thicker than itis in the proventiculus (glandular). The mucosa consisted simple columnar epithelium in the form of short folds confined by gastric pits. The lamina properia contained simple tubular glands that open at the base of the gastric pits among folds and fill the cavity with koilin, which is consistent with (18). The koilin appears to be positive for AB/PAS stain, because koilin is protein-like substance (16,19). The muscularis mucosa was scattered but located near the base of the glands, which is similar to the Hasoon (11). Submucosa consisted of a loose connective tissue with blood vessels. The muscularis externa is very thick and consisted of several rows of smooth muscle layers, and these results agreed with (13). This agreement may be because the magpie is a mixed feeding and the muscles are well formed and responsible for shrinking of the gizzard in order to crushing food. The serosa appears to be very rich in the blood vessels supplying the muscularis externa, consistent with (11).
The cardiac stomach is formed in the small asian mongoose of unequal gastric folds, while the gastric folds in fundic stomach were more regular. The presence of folds lead to an increase in the surface area of the stomach to produce mucus and enzymes that help in the process of fermentation and digestion of food (20). The mucosa consisted of three layers: the epithelium lining is formed by gastric pits, these result agree with (21). The epithelium is composed of two types of cells: mucous neck cells positive for AB/PAS stain, may be due to these cells produce mucus acidic in type, so stained with blue color, parietal cells positive for AB/PAS stain, may be due to these cells secrete serotonin acidic in type so itis colored with blue. The epithelium in the fundic stomach is composed of three types of cells: mucous neck cells, parietal cells and chief cells, which showed a positive response to the AB/PAS stain, these results are similar to (1), whereas parietal cells produce hydrochloric acid and chief cells secrete pepsinogen. The epithelium in pyloric stomach is composed of mucous neck cells and absence of parietal cells and this result consistent with (1). The lamina properia is interspersed with simple tubular glands and branched simple tubular glands in cardiac stomach, while in the fundic stomach there were only branched simple tubular glands, and in the pyloric stomach there were simple tubular glands. These results are not consistent with (10), which may be due to the feeding behaviors of the small asian mongoose (carnivorous), which has a real glandular stomach. The submucosa lacked gastric glands, and this result agreed with (1). The muscularis externa composed of two layers: an inner layer and outer layer, which appeared to be different in thickness within the wall of the stomach, and finally the serosa was consisted of simple squamous epithelium (mesothelium), these results are similar to (1).