scholarly journals Histological Structure of Varanus Salvator Intestine

2020 ◽  
Vol 3 ◽  
pp. 121-124
Author(s):  
Risti Widyaningsih
Keyword(s):  
Blood Vessel ◽  
Muscle Layer ◽  
Common Species ◽  
Histological Structure ◽  
Histological Observation ◽  
Monitor Lizard ◽  
The Family ◽  
Varanus Salvator ◽  
Paraffin Method ◽  
Muscularis Externa

Varanus salvator is a common species in Indonesia. This animal is known as the water lizard, who is a member of the family Varanidae or known as the monitor lizard. This research aims to find out histological structure of Varanus salvator intestine. Histological observation was carried out by making histological preparations using the paraffin method. The results of this study were analyzed in a comparative descriptive manner through observation in a microscope and transverse photo histology preparations using a camera. The results of this study indicate that the intestinal histological structure of Varanus salvator consists of Serosa (Sr), Muscle layer (Ml), Muscularis externa (Me), Submucosa (Sm), Mucosa (M), Blood Vessel (Bv) dan Lamina Propria (Lp).

scholarly journals Histological Structure of the Varanus Salvator Kidney

2020 ◽  
Vol 3 ◽  
pp. 117-119
Author(s):  
Ida Khoirunnisa’
Keyword(s):  
Proximal Convoluted Tubule ◽  
Distal Convoluted Tubule ◽  
Histological Structure ◽  
Physics Laboratory ◽  
Monitor Lizard ◽  
Varanus Salvator ◽  
Monitor Lizards ◽  
Bowman's Capsule ◽  
Paraffin Method

Varanus salvator is known as the monitor lizard. This animal is a subspecies of endemic Indonesian monitor lizards which is only found in Java, Bali and Nusa Tenggara (except Timor Island). This study aims to determine the histological structure of the monitor lizard (Varanus salvator). The research was carried out for two months starting from September 2019 to October 2019 at the Animal Physics Laboratory and Zoology of UIN Sunan Kalijaga. The method used is the paraffin method. The results of the study were analyzed in a comparative descriptive manner by observation through a microscope and then taken using a camera. Based on the results of studies lizards (Varanus salvator) have distal convoluted tubule, proximal convoluted tubule, glomerulus, medullary ray and bowman’s capsule.

Studi Histokimia Usus Biawak Air (Varanus salvator bivittatus) (Reptil: Varanidae)

2019 ◽  
Author(s):  
Mahfud Mahfud ◽  
Ernawati
Keyword(s):  
Tissue Sample ◽  
Histological Section ◽  
Tissue Perfusion ◽  
Intestinal Wall ◽  
Biological Information ◽  
Suitable Habitat ◽  
Monitor Lizard ◽  
Varanus Salvator ◽  
Hematoxylin Eosin ◽  
Paraffin Method

Biological information, behaviour and suitable habitat of water monitor was very less in order to support its maintenance management and breeding efforts. One of important information is the information of digestive tract, particularly the information about the structure of intestine tissue of water monitor. Sample in this research was intestine organ of water monitor. The animal was anesthetized, exanguinated, and fixed in paraformaldehyde 4% by tissue perfusion method. The intestine tissue sample for histological section with paraffin method was cutted with 3-4 μm thick and coloured with hematoxylin eosin (HE). Observation were performed to the structure of intestine histology. The results was analysed descriptively and presented in figures. Monitor lizard intestine consist of small intestine and large intestine. The small intestinal wall was observed similar to jejunum and ileum. The large intestinal wall was composed of transitional ephytelia and connective tissue. However, the ephytelial layer in this tissue was composed of transitional ephytelia that similar to vesica urinaria and there are no villi.

scholarly journals STUDI ANATOMIS DAN HISTOLOGIS PANKREAS BIAWAK AIR (Varanus salvator) (Anatomical and Histological Study of the Pancreas of Water Monitor Lizard (Varanus salvator))

2016 ◽  
Vol 10 (2) ◽  
pp. 153-156 ◽  
Author(s):  
Hamny Hamny ◽  
Muhammad Iqbal ◽  
Sri Wahyuni ◽  
Mustafa Sabri ◽  
M. Jalaluddin ◽  
...  
Keyword(s):  
Histological Study ◽  
Histological Structure ◽  
Ventral Lobe ◽  
Nacl Solution ◽  
Dorsal Lobe ◽  
Yellow Color ◽  
Monitor Lizard ◽  
Oval Form ◽  
Varanus Salvator ◽  
Hematoxylin Eosin

The aim of this research was to determine the anatomy and histology of pancreas of water monitor lizard (Varanus salvator). Two pancreas were used in this research (a male and a female). Water monitor lizard was euthanized using chloroform and subsequently necropsied to collect the pancreas. The pancreas was washed in 0.9 % NaCl solution. Anatomical observations were carried out including location, shape, and color of pancreas, also the length and weight measurements. Then, pancreas was fixed with 4% paraformaldehyde for 7 days to proceed to histological preparation and hematoxylin eosin (HE) staining. The results of the anatomical observations showed that pancreas of water monitor lizard have two lobes, dorsal lobe (splenic lobe) and ventral lobe (duodenal lobe). Dorsal lobe which was in oval form adhered with the spleen, and ventral lobe was located in the cranial of intestines with the form of long spherical. Both of pancreas lobes were white-yellow color with the length of 1.45±0.64 cm (dorsal lobe) and 7.00±0.42 cm (ventral lobe). Weight of dorsal lobe was 0.15±0.01 g and ventral lobe was 6.35±2.30 g. The histological observations found the acinar cells, ducts, and blood vessels in both of pancreas lobes. Additionally, the similar structure of Langerhans islet only found at the ventral lobe of pancreas. In conclusion, pancreas of water monitor lizard consists of two lobes which located differently. Ventral lobe is larger than the dorsal lobe. Both lobes have similar histological structure except the Langerhans islets are only appeared in the ventral lobe.

scholarly journals Micromorphological Structure of Primary Reproductive Organ of Male Water Monitor Lizard (Varanus salvator bivittatus)

2016 ◽  
Vol 10 (1) ◽  
Author(s):  
Mahfud M ◽  
Adi Winarto ◽  
Chairun Nisa
Keyword(s):  
Reproductive Organ ◽  
Columnar Epithelium ◽  
Histological Structure ◽  
Ductus Deferens ◽  
Tissue Samples ◽  
Histological Techniques ◽  
Circular Smooth Muscle ◽  
Monitor Lizard ◽  
Mucosal Layer ◽  
Varanus Salvator

The study aims to determine the histological structure of the testes, ductus epididymidis and ductus deferens of Varanus salvator bivittatus. The tissue samples were obtained by the histological techniques preparation with thickness section is 3-4 µm then stained using hematoxylineosin(HE)andMasson'sTrichrome(MT).Theresultshowedthattestesarecoveredbytunicavaginalisandtunicaalbuginea(tunicafibrousandtunicavasculosa). Tubulus seminiferous as a parenchyma are found in lobules of testes which are formed by septum as extension of tunicaalbuginea. Tubulus seminiferous is composed by layers of germinal epithelium cells consist of spermatogenia, Sertoli cell, spermatocyte andspermatid which is developed further to be spermatozoa in the lumen of tubulus. Among the tubulus seminiferous, there are groups of epithelioidcells called Leydig cells. The end of tubulus seminiferous formed ductus epididymidis which then ended up and known as ductus deferens.Epididymis is covered by dense connective tissue. Ductus epididymidis is divided into three segments: cranial, medial and caudal. It is lined bypseudostratified columnar epithelium which is varied in its thickness, amount and diameter of lumen. Lumen of the ductus deferens was lined bypseudostratified ciliated columnar epithelium and thin muscularis mucosal layer and thick circular smooth muscle were covered externally.Key words: Varanus salvator bivittatus, testes, ductus epididymidis, ductus deferens, micromorphology 

Anticancer Properties of Asian Water Monitor Lizard (Varanus salvator), Python (Malayopython reticulatus) and Tortoise (Cuora kamaroma amboinensis)

2020 ◽  
Vol 20 (13) ◽  
pp. 1558-1570
Author(s):  
Shareni Jeyamogan ◽  
Naveed A. Khan ◽  
Kuppusamy Sagathevan ◽  
Ruqaiyyah Siddiqui
Keyword(s):  
Mass Spectrometry ◽  
Liquid Chromatography ◽  
Amino Acid ◽  
Anticancer Agents ◽  
Liquid Chromatography Mass Spectrometry ◽  
Chromatography Mass Spectrometry ◽  
Adenocarcinoma Cells ◽  
Monitor Lizard ◽  
Varanus Salvator ◽  
Asian Water

Background: Cancer contributes to significant morbidity and mortality despite advances in treatment and supportive care. There is a need for the identification of effective anticancer agents. Reptiles such as tortoise, python, and water monitor lizards are exposed to heavy metals, tolerate high levels of radiation, feed on rotten/germ-infested feed, thrive in unsanitary habitat and yet have prolonged lifespans. Such species are rarely reported to develop cancer, suggesting the presence of anticancer molecules/mechanisms. Methods: Here, we tested effects from sera of Asian water monitor lizard (Varanus salvator), python (Malayopython reticulatus) and tortoise (Cuora kamaroma amboinensis) against cancer cells. Sera were collected and cytotoxicity assays were performed using prostate cancer cells (PC3), Henrietta Lacks cervical adenocarcinoma cells (HeLa) and human breast adenocarcinoma cells (MCF7), as well as human keratinized skin cells (Hacat), by measuring lactate dehydrogenase release as an indicator for cell death. Growth inhibition assays were performed to determine the effects on cancer cell proliferation. Liquid chromatography mass spectrometry was performed for molecular identification. Results: The findings revealed that reptilian sera, but not bovine serum, abolished viability of Hela, PC3 and MCF7 cells. Samples were subjected to liquid chromatography mass spectrometry, which detected 57 molecules from V. salvator, 81 molecules from Malayopython reticulatus and 33 molecules from C. kamaroma amboinensis and putatively identified 9 molecules from V. salvator, 20 molecules from Malayopython reticulatus and 9 molecules from C. kamaroma amboinensis when matched against METLIN database. Based on peptide amino acid composition, binary profile, dipeptide composition and pseudo-amino acid composition, 123 potential Anticancer Peptides (ACPs) were identified from 883 peptides from V. salvator, 306 potential ACPs from 1074 peptides from Malayopython reticulatus and 235 potential ACPs from 885 peptides from C. kamaroma amboinensis. Conclusion: To our knowledge, for the first time, we reported comprehensive analyses of selected reptiles’ sera using liquid chromatography mass spectrometry, leading to the identification of potentially novel anticancer agents. We hope that the discovery of molecules from these animals will pave the way for the rational development of new anticancer agents.

scholarly journals REVISIÓN TAXONÓMICA DE LA FAMILIA ANTENNARIIDAE PARA COLOMBIA (PISCES: LOPHIIFORMES), INCLUYENDO UN NUEVO REGISTRO DE ANTENNARIUS

2016 ◽  
Vol 36 ◽  
Author(s):  
Luz M. Mejía Ladino ◽  
Arturo Acero P. ◽  
Luz S. Mejía M. ◽  
Andrea Polanco F.
Keyword(s):  
Common Species ◽  
Eastern Pacific ◽  
Western Atlantic ◽  
The Pacific ◽  
The Family ◽  
The Caribbean

The family Antennariidae is represented by two genera (Antennarius and Histrio) and seven species in the Western Atlantic, and by two genera (Antennarius and Antennatus) and five species in the Eastern Pacific. All the species are known from Colombian waters, with the exception of Antenanrius coccineus. In this study we review the family Antenariidae in Colombia, based on the examination of 51 specimens. Antennarius radiosus is first recorded from the Colombian Caribbean, based on two specimens collected with trawls at 20 m depth in Buritaca (Magdalena) and Isla Fuerte (Córdoba). Antennarius radiosus, Antennarius bermudensis, Antennarius multiocellatus, Antennarius ocellatus and Antennarius pauciradiatus are restricted to the Western Atlantic. The most common species found in Colombian seas are Antennarius striatus in the Caribbean and Antennarius avalonis in the Pacific. Histrio histrio is the only species with an almost circumglobal distribution. A key to identify antenariid fishes from Colombia is provided.

Lectotypification of Sematophyllum latifolium, a new synonym of Wijkia surcularis (Pylaisiadelphaceae, Bryophyta)

Phytotaxa ◽  
2021 ◽  
Vol 484 (3) ◽  
pp. 298-300
Author(s):  
NARIN PRINTARAKUL ◽  
SAHUT CHANTANAORRAPINT
Keyword(s):  
Type Specimen ◽  
Common Species ◽  
Type Material ◽  
Type Collection ◽  
Type Specimens ◽  
Northern Thailand ◽  
New Synonym ◽  
The Family

Sematophyllum latifolium Brotherus (1911: 362), known only from the type collection, was originally described by Brotherus (1911) based on a collection made by C.C. Hosseus from Mt. Doi Suthep (Doi Sutäp), in northern Thailand. Pollawatn (2008) revised the family Sematophyllaceae s.l. in Thailand but did not see the type specimen of S. latifolium. During the study of Hosseus’s collections, however, we found two duplicates of type specimens of S. latifolium one located in H-BR and one in M. We found that several critical features of S. latifolium, such as the 1) irregular-pinnately branching habit with the erect flagelliform branches (Fig. 1A), 2) stem and branch leaves strongly differentiated (Fig. 1B−F), and 3) brotherelloid type alar cells often divided into larger hyaline cells towards leaf margins (Fig. 1G), were indistinguishable from those in the type material of Wijkia surcularis (Mitten 1859: 112) Crum (1971: 173), a common species found growing from India to Indochina (Gangulee 1980; Tan & Iwatsuki 1993; Tan & Jia 1999; Jia et al. 2005). Thus, we here propose S. latifolium as a new synonym of W. sucularis. In the protologue, Brotherus (1911) did not designate the holotype, therefore, it is necessary to select a lectotype for S. latifolium ((see Art. 9.11 of the Shenzhen Code (Turland et al. 2017)). We designate Hosseus’s collection (Hosseus s.n.) in H-BR (H) as the lectotype of the name S. latifolium.

Therapeutic and Pharmaceutical Potential of Cinnamon

2022 ◽  
pp. 698-710
Author(s):  
Neha Mishra ◽  
Rashmi Srivastava
Keyword(s):  
Wide Spectrum ◽  
Folk Medicine ◽  
Common Species ◽  
New Drugs ◽  
Bioactive Constituents ◽  
Rheumatic Arthritis ◽  
The Family ◽  
Pharmacological Studies ◽  
Therapeutic Properties ◽  
The Himalaya

Cinnamon has been used as a spice, condiment, and aromatic plant since centuries ago. Cinnamon is a small evergreen tree belonging to the genus Cinnamomum in the family Lauraceae. There are more than 250 species of cinnamon worldwide. In India, Cinnamomum verum and Cinnamomum cassia are the most common species grown in the Himalaya region. They have been used as folk medicine for the treatment of nausea, flatulent dyspepsia, coughs, diarrhea, malaria, gastric disorder, and to alleviate pain and inflammation in rheumatic arthritis. Therapeutic properties of cinnamon are due to the presence of bioactive constituents such as p-coumaric, cinnamaldehyde, cinnamic acid, and eugenol. Cinnamaldehyde and eugenol are the major active constituents responsible for its characteristic flavor, aroma, and therapeutic properties. Pharmacological studies found that it could be a promising candidate with potential for designing new drugs. This review is aimed to summarize the ethanomedicinal importance, phytochemistry, and wide spectrum of pharmacological and therapeutic applications of cinnamon.

Iospilids (Polychaeta: Iospilidae) from the northwest Caribbean Sea, with observations on reproductive structures

Zootaxa ◽  
2006 ◽  
Vol 1211 (1) ◽  
pp. 53 ◽  
Author(s):  
SOLEDAD JIMÉNEZ-CUETO ◽  
EDUARDO SUÁREZ-MORALES ◽  
SERGIO I. SALAZAR-VALLEJO
Keyword(s):  
Caribbean Sea ◽  
Common Species ◽  
Eastern Coast ◽  
Reproductive Process ◽  
Morphological Variations ◽  
Reproductive Structures ◽  
Morphological Adaptations ◽  
The Family ◽  
Mode Of Life ◽  
The Caribbean

Iospilids are a small, inconspicuous group of holopelagic polychaetes that dwell in the upper layers of tropical, temperate, and cold waters of the world. Representatives of this interesting and infrequent group were collected during four oceanographic cruises off the eastern coast of the Yucatan Peninsula, northwest Caribbean Sea. Three of the four species currently known in the family were recorded: Iospilus phalacroides Viguier, 1886, Phalacrophorus pictus Greeff, 1879, and P. uniformis Reibisch, 1895. The latter was the most common species in the area; it occurred during the four cruises and represented more than 92% of the total iospilid specimens caught; it was slightly more abundant in nighttime samples. New observations of reproduction-related morphological variations and sexual dimorphism are presented for P. uniformis. These may be regarded as morphological adaptations to the planktic mode of life thus favouring the efficiency of the reproductive process in the water column. These are the first records of the family Iospilidae in the Caribbean Basin. Revised generic and species diagnoses, taxonomic illustrations and notes, and an identification key are given here for the species recorded in the Caribbean.

scholarly journals Anatomy of the Male Reproductive Organ of Water Monitor Lizard, Varanus salvator bivittatus (Reptil: Varanidae)

2019 ◽  
Author(s):  
mahfud
Keyword(s):  
Reproductive Organs ◽  
Reproductive Organ ◽  
Male Reproductive Organ ◽  
Monitor Lizard ◽  
Varanus Salvator ◽  
Biological Aspects ◽  
Male Reproductive Organs ◽  
Monitor Lizards ◽  
Almost All ◽  
Asian Water

One of the majority species of Varanidae is Varanus salvator or which commonly known as water monitor lizards (water monitor) or Asian water monitor lizard. This species is the most widely spread out of the all varanids. In Indonesia, V. salvator are distributed in almost all islands, from Sumatra, Java, Sulawesi, Maluku and Flores. Subspecies V. s. bivittatus was found only in Java, Bali and South East Islands [1]. The information on reproductive biological aspects of the V. s. bivittatus, especially the male reproductive organs is limited. Therefore, the study was aim to explore the male reproductive organs system of V. s. bivittatus that focused on macroscopic evaluation. Two adult male lizards with 45.60 cm SVL from Bogor area were used in this study. The lizard were anesthetized and exanguinated to sacrifice and fixed in 4 % paraformaldehyde through perfusion then followed by visceral observation and morphometric carefully measurement. All the observation finding and collected data were analyzed descriptively and presented in the form of tables and figures. Morphometric data were tabulated in the form of the average (mean) ± standard deviation (SD). Male reproductive organs of the V. s. bivittatus were generally similar to other reptiles such as snakes and lizards, with characteristics a pair of hemipenes. Epididymis was not formed of head, body and radix segment. The deferent duct is a small, straight and short duct which connected the epididymis to cloaca.

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