Occurrence of keratinization in the structures associated with lips of a hill stream fish Garra lamta(Hamilton)(Cyprinidae,Cypriniformes)

Keratinized regions were found to occur in the rostral cap, adhesive pad and horny jaw sheaths associated with the lips of Garra lamta, which inhabits fast flowing turbulent hill streams. In these structures, the surface epithelial cells were modified into characteristic keratinized spine‐like or columnar tooth‐like unculi, which would provide firm anchorage for the fish on the substratum and assist the fish in browsing or scraping food materials from it.     

Essence of keratin in lips and associated structures of a freshwater fish Puntius sophore in relation to its feeding ecology: Histochemistry and scanning electron microscope investigation

Morphological specializations in the lips and associated structures of Puntius sophore were examined by scanning electron microscopy and histochemically. The upper lip (UL), in P. sophore, is associated with the horny upper jaw sheath (HUJS) on its ventral side and with the rostral cap (RC) on its dorsal side through a thin and extensive fold of skin (FSUR). The lower lip (LL) is greatly enlarged, conspicuous and associated with horny lower jaw sheath (HLJS) on the dorsal side and ventrally continues with ventral head skin (VHS). On the lateral sides there is a thin and extensive fold of skin (FSLS) between the lower lip and VHS. In contrast to the mucogenic epithelia of the UL, LL, the RC and fold of skins, the horny jaw sheaths are keratinized in nature and surface epithelial cells are characteristically modified into unculi. The UL and the LL are equipped with epithelial cells (EC), mucous cells (MC) and taste buds (TB) while in addition to these cells club cells (CC) are also present in the RC. Keratin found in unculi is an extremely strong protein which is tough and insoluble, they form the hard but un-mineralized structures. Keratin in unculi could be regarded as an adaptation for browsing or scraping food materials from the substrate as the fish grubs about the bottom. The elaboration of mucus is considered to lubricate the surface and protect the epithelia from abrasions. Taste buds are associated to locate and select palatable food and to trigger a ‘pick-up’ reflex.     

Structure and histochemistry of the epithelia of lips and associated structures of a catfishRita rita

InRita rita the upper lip is associated with the rostral cap and the lower lip with a skin fold. The epithelia of the lips, which are modified with respect to the peculiar feeding behaviour of the fish, are mucogenic. The superficial layer of epithelial cells, in addition to the mucous cells, are involved in active secretion of mucopolysaccharides. Mucus, apart from its diverse functions, as in fish epidermis, lubricates the epithelia giving protection against possible mechanical injury during the searching and catching of prey from bottom debris. Furthermore, the epithelia are thick, an adaptation to their mucogenic nature, so as to provide additional protection. The contents of the club cells are proteinaceous, which correlates with the helical filaments reported in similar cells in fish epidermis. Characteristic ridges on the surface of the lips are considered to be an adaptation to assist in manipulation during the procuring of food. Mucus secreted in the grooves between them reduces friction and prevents the deposition of foreign matter. The skin fold facilitates an increase in gape. The taste buds and ampullary organs, which on the lips and the rostral cap are associated with the localization of prey and triggering of a pick-up reflex, are not located on the skin fold, as the latter often remains concealed between the lower lip and the ventral head skin. The importance of histochemical analysis as a supplement to histological studies is emphasised.     

Unculi (Horny Projections Arising from Single Cells), an Adaptive Feature of the Epidermis of Ostariophysan Fishes

Horny projections arising from single cells, or unculi, of ostariophysan fishes are described and discussed by several workers, but they occur in many more families and genera than previously reported and their status as a key adaptive feature has not been recognized. Unculi are related morphologically to the relatively well-known multicellular horny tubercles (including breeding tubercles) of Ostariophysi and other fishes, but differ from them in anatomical distribution and function. Unculi are especially prominent features of portions of the epidermis in Cyprinoidei (carps, loaches, and their allies) and Siluroidei (catfishes); they also occur in Characoidei (characins) and Chanoidei (gonorynchs) but have not been found in any non-ostariophysan fishes. Unculi evidently are functionally significant on the lips and other mouth parts (especially in groups lacking jaw teeth), on the ventral surface of the paired fins in many bottom-dwellers, and on several neomorphic features including epidermal plaques and tubercles in various catfishes, the thoracic adhesive disc of sisorid catfishes, and the mental adhesive disc of the cyprinid genus Garra . In some sisorid and akysid catfishes virtually the entire external body surface is covered by unculiferous plaques or tubercles. Possible functions of unculi include: mechanical protection of the skin, rasping, adhesion, and hydrodynamic effects. Unculi seem to have been especially important in the diversification of cyprinoid feeding habits and in the adaptation of bottom-dwelling cyprinoids and siluroids to swift-water habitats, especially in Asia.     

The oral sucker of Gyrinocheilus aymonieri (Teleostei: Cypriniformes)

The sucker was studied in young and mature fish by light microscopy, histochemistry, transmission and scanning electron microscopy, X-ray probe microanalysis, dissection, staining preparations of whole skeletons, and watching the animals in aquaria. The fleshy lips are supported by highly flexible, chondroid tissues, the structure and histochemistry of which differ substantially from those of cartilage. They allow the sucker to evert when the fish attaches to a stone or aquarium wall and are connected to the maxillae, premaxillae and dentaries. Lining the inside of the lips are two horny rasps, each with several regular rows of small hooks. The scraping blades of these hooks are keratinized and point towards the mouth. They increase the coefficient of friction for adhesion and enable the fish to feed on encrusting algae. Between the posterior rasp and the -anterior margin of the mandible are two invaginations of the lower lip that extend the sucker chamber beneath large hollows in the dentaries. The anterior margin itself contacts the outer surface of the maxillary oral valve when the mouth is closed, and isolates the sucker chamber from the rest of the buccal and pharyngeal cavities. Contrary to previous views, it is thought that a true vacuum is produced, and that attached fish spend long periods without taking water in through the mouth. The attachments of the principal jaw muscles are described and their role in sucker action discussed. There are similarities with the jaw mechanism of catostomids.     

Epithelium of lips and associated structures of the Indian major carp,Catla catla

Structural organization of the epithelium of the lips and associated structures of the Indian major carp,Catla catla, is described. The upper lip is thin and is associated on its dorsal side with a membranous fold of skin and the rostral cap. In contrast, the lower lip is thick and very conspicuous. It is associated on its ventral side with a fold of skin between it and the ventral head skin. The lower lip is divided into a non-projectile portion, a projectile portion and an intermediate groove region. The projectile portion remains folded covering a part of the ventral head skin when the mouth is closed. Their role in relation to the formation of the characteristic feeding tube is discussed. The epithelium of the lips and associated structures is stratified in nature and is composed of the epithelial cells, mucous cells, club cells, lymphocytes and the taste buds. The mucous cells are small, few or even absent and do not appear to secrete profusely at the surfaces of the upper and the lower lips. This suggests that the lips inCatla catla, which feeds on micro-organisms, do not need extra lubrication for protection against abrasion during feeding. In the epithelium at the folds of skin, the voluminous mucous cells secrete profusely and provide extra lubrication to their surface. This reduces the resistance to surface drag during stretching and enables the jaws to protrude with increasing efficiency and swiftness. The club cells are developed additionally to complement the mucous cells in the rostral cap and the upper lip epithelium. Their primary function appears protective in some way, which needs further confirmation. The taste buds, though few in the lower lip, are located in a good number in the upper lip on the characteristic epithelial papillae-like projections, and are projected at the surface. These have been associated with the acute gustatory sense of the fish. The taste buds are absent on the folds of skin where they may not be of much significance.     

角蟾科三亚科蝌蚪角质颌的显微结构比较(两栖纲,无尾目)

采用扫描电镜技术研究了角蟾科8种蝌蚪角质颌的显微结构特征和形态特点,阐述了角质颌对蝌蚪觅食方式的影响。实验结果表明:角蟾科蝌蚪的角质颌属于两个不同的类型。拟髭蟾亚科和掌突蟾亚科的蝌蚪具有相似的显微结构特征:角质颌呈厚重的U型,角质化程度高。颌鞘呈基部宽、顶端尖的圆锥形;角蟾亚科的蝌蚪角质颌呈纤弱的弓型,角质化程度低。颌鞘呈基部窄、长而顶端略弯曲的象牙型。进一步的分析发现,8种蝌蚪的颌鞘直径和密度呈显著负相关。这种显微结构的变化趋势也反映出蝌蚪对栖息环境和觅食方式的适应性。     

Histochemistry of the tongue epithelium in four mammals with respect to keratinization

The tongue epithelium was examined in the laboratory rat, guinea pig, rabbit and Domestic cat, using light microscopical, histological fluorescent and histochemical methods. The distributions of the enzymes, acid and alkaline phosphatase were examined. Protein-bound phospholipid and calcium were investigated, together with thiol sulphydryl groups and cysteine disulphide bonds of proteins. A variety of different types of keratinization were shown in the various species, as well as in the same species in different regions of the tongue. The most strongly keratinized structures were the filiform and conical papillae which varied widely from species to species. Those of the rat dorsum were similar to papillae described previously in the House mouse and have strongly keratinized spines. The guinea pig showed some differences but also had keratinized spines. In contrast the rabbit papillae did not have spines but the horny layer over the posterior sides was hardened instead to form pointed edges. Human filiform papillae are similar to the rabbit without spines but the horny layer is less strongly keratinized. In the Domestic cat the conical papillae were also without spines but the horny layer on the anterior and posterior surface was hardened to form claw-like structures.     

Morphological specializations of the buccal cavity in relation to the food and feeding habit of a carp Cirrhinus mrigala: A scanning electron microscopic investigation

The buccal cavity of an herbivorous fish, Cirrhinus mrigala, was investigated by scanning electron microscopy to determine its surface ultrastructure. The buccal cavity shows significant adaptive modifications in relation to food and feeding ecology of the fish. The buccal cavity of the fish is of modest size and limited capacity, which is considered an adaptation with respect to the small‐sized food items primarily consumed by the fish that could be accommodated in a small space. Modification of surface epithelial cells, on the upper jaw, into characteristic structures—the unculi—is considered an adaptation to browse or scrap, to grasp food materials, e.g., algal felts, and to protect the epithelial surface against abrasions, likely to occur during their characteristic feeding behavior. Differentiation of the highly specialized lamellar organ on the anterior region of the palate could be an adaptation playing a significant role in the selection, retention, and sorting out of palatable food particles from the unpalatable items ingested by the fish. The filamentous epithelial projections and the lingulate epithelial projections on the palatal organ in the posterior region of the palate are considered to serve a critical function in final selection, handling, maneuvering, and propelling the food particles toward the esophagus. The abundance of different categories of taste buds in the buccal cavity suggests that gustation is well developed and the fish is highly responsive in the evaluation and the selection of the preferred palatable food items. The secretions of mucous cells in the buccal cavity are associated with multiple functions—particle entrapment, lubrication of the buccal epithelium and food particles to assist smooth passage of food, and to protect the epithelium from possible abrasion. These morphological characteristics ensure efficient working of the buccal cavity in the assessment of the quality and palatability of ingested food, their retention and transport toward the esophagus. Such an adaptation may be essential in conducting the function most basic to the survival of the individuals and species—feeding. J. Morphol. 2009. © 2009 Wiley‐Liss, Inc.     

Plantar epidermis of the guinea pig and characteristics of the stratum corneum.

The guinea pig plantar epidermis was examined by light-microscopical histochemical methods and by transmission electron microscopy. Autolysis of cell structure was much less complete in guinea pig plantar horny layer than in the back, and stainable cytoplasm was retained in keratinized cells but organelles were lost except for some degraded ultrastructural remnants. By light microscopy the whole thickness of the horny layer showed bound phospholipid and bound cysteine, and there was a weak cystine reaction at the peripheries of the keratinized cells. In ultrastructure the keratohyalin contained slightly larger subparticles than in the back skin. The horny layer was not divisible into basal, intermediate and superficial regions as in hairy skin. The stratum lucidum of light microscopy was not defined in electron micrographs. Osmium-stained cytoplasmic material was retained in horny cells about to be desquamated, in contrast to the empty appearance of these cells in hairy skin. Epidermal cells in plantar skin have ultrastructural cytoplasmic processes which are longer than they are broad. In the horny layer these interdigitate with those of neighbouring cells and are held together by lateral demonsomal junctions. Probably this gives mechanical strength against shearing forces experienced by the plantar horny layer.     

The morphology of the adhesive organ of the sisorid fish,Glyptothorax pectinopterus

In the sisorid fish,Glyptothorax pectinopterus, the adhesive organ located on the ventral side of the thorax consists of a number of longitudinal ridges and grooves that alternate with each other around a triangular furrow lying in the centre. Adhesion of the fish to the rocky substratum in a hill stream habitat is brought about by the hooked and keratinized epidermal spines borne by the longitudinal ridges of the adhesive organ as well as those on the under surface of the pectoral and pelvic fins. The secretion of a surface coat of mucopolysaccharides by the mucous cells and the goblet cells is a device to protect the adhesive organ from mechanical abrasion.     

Fine structural analysis of the fibrillar adhesion apparatus in ladybird beetle

The attachment system on the ladybird beetle Harmonia axyridis is composed of a pair of pretarsal claws and adhesive pads at the tarsal segments. The claws, which are connected to the pretarsal segment, are mainly used to hold the rough substrates by their apical diverged hooks. In contrast, the adhesive pads have an adhesive function when landing on smooth surfaces. They are interspersed at the ventral adhesive pad of each tarsomere, and are composed of two kinds of hairy setae. The discoid tip seta (DtS) is located at the central region of each adhesive pad. The DtS has a spoon‐shaped endplate with a long and narrow shaft. In contrast, the pointed tip seta (PtS) is interspersed along the marginal regions of each adhesive pad, and has a hook‐shaped spine near the tip. In the present study, we found numerous fine cuticular pores beneath the setae, which seem to be related to the secretion of some adhesive fluids. It may be deduced that ladybird beetles can attach to smooth surfaces more effectively by employing adhesive fluids filling in surface crevices to overcome problems cause by their larger size endplates.     

Adhesive Contact in Animal: Morphology, Mechanism and Bio-Inspired Application

Many animals possess adhesive pads on their feet,which are able to attach to various substrates while controlling adhesive forces during locomotion.This review article studies the morphology of adhesive devices in animals,and the physical mechanisms of wet adhesion and dry adhesion.The adhesive pads are either ‘smooth' or densely covered with special adhesive setae.Smooth pads adhere by wet adhesion,which is facilitated by fluid secreted from the pads,whereas hairy pads can adhere by dry adhesion or wet adhesion.Contact area,distance between pad and substrate,viscosity and surface tension of the liquid filling the gap between pad and substrate are the most important factors which determine the wet adhesion.Dry adhesion was found only in hairy pads,which occurs in geckos and spiders.It was demonstrated that van der Waals interaction is the dominant adhesive force in geckos' adhesion.The bio-inspired applications derived from adhesive pads are also reviewed.     

Surface ultrastructure of gill arches and gill rakers in relation to feeding of an Indian major carp, Cirrhinus mrigala

The surface ultrastructure of the gill arches and the gill rakers of an herbivorous fish, Cirrhinus mrigala was investigated by scanning electron microscopy. These structures show significant adaptive modifications associated with the food and feeding ecology of the fish. Closely lying short gill rakers and narrow inter-raker channels on the gill arches are associated to filter and retain food particles. Prominent epithelial protuberances on the gill rakers and the gill arches enable the taste buds, located at their summit, to project well above the surface of the epithelium. This could increase the efficiency of the taste buds in selective sorting of palatable food. Surface specializations of the postlingual organ are recognized adaptive modifications for selecting, trapping or holding food particles. Prominent molariform teeth born on the lower pharyngeal jaw, and the chewing pad opposite it, are associated to work together as an efficient pharyngeal mill. Mucous goblet cells are considered to elaborate mucus secretions to trap, glue and lubricate food particles for their smooth transport for swallowing.     

Fine structure of the horny teeth of the lamprey,Entosphenus japonicus

The fine structure of the horny teeth of the lamprey, Entosphenus japonicus, was examined by light- and electron-microscopy. Most of the horny teeth consisted of two horny and two nonhorny layers. The primary horny layer was well keratinized, and the cells were closely packed and intensely interdigitated, being joined together by many modified desmosomes. The plasma membrane of the horny cell, unlike the membranes of other vertebrates, was not thickened. The intercellular spaces were filled with electron-dense material. Microridges were seen on the free surface. Structures resembling microridges were found on the underside of the primary horny layer. The secondary horny layer displayed various stages of keratinization. The keratinization started at the apex and developed toward the base. In the early stage of keratinization, the superficial cells became cylindrical and were arranged in a row forming a dome-shaped line. Their nuclei were situated in the basal part of the cells. The appearance of the nonhorny layers varied according to the degree of keratinization of the horny layers beneath them. The nonhorny cells were joined together by many desmosomes and possessed many tonofilament bundles. The replacement and keratinization of the horny teeth are discussed in the light of these results.     

Evolutionary significance of oral morphology in the carnivorous tadpoles of tiger frogs, genus Hoplobatrachus (Ranidae)

We describe the larval stages of three species of the Asian-African tiger frogs Hoplobatrachus chinensis, H. occipitalis and H. tigerinus . The tadpoles of all three species are very similar, with peculiar oral features: (1) double rows of needle-like labial teeth, (2) strong emarginations on the large jaw sheaths and (3) keratinized spurs on the buccal floor. Characters 1 and 2 (and perhaps 3) are probably related to the carnivorous habits of these tadpoles. A molecular phylogeny based on 2430 base pairs of two nuclear and four mitochondrial genes corroborated monophyly of Asian and African Hoplobatrachus, and identified Euphlyctis as their sister group. Tadpoles of the latter genus lack buccal spurs and double labial tooth rows but share large jaw sheaths, the upper with a medial projection. Therefore, the common ancestor of Euphlyctis and Hoplobatrachus probably was also characterized by this state, and may have been facultatively carnivorous. Further carnivorous specializations in Hoplobatrachus could explain why tiger frogs have been so successful in populating arid environments where ponds are at high risk of desiccation. Larval morphology may prove to be the key innovation which enabled them to disperse, in the Late Cenozoic, into their current very wide distribution area in Asia and Africa.  © 2004 The Linnean Society of London, Biological Journal of the Linnean Society , 2004, 81 , 171–181.     

A comparison of the epidermis and pigment cells of the crocodile with those in two lizard species

Keratinization and pigmentation in Crocodilus niloticus skin were compared with the conditions in the lizards Lacerta viridis and Anolis carolinensis. The epidermis, both in the crocodile and in lizards, is arranged to form a surface pattern of scales and narrower intervening hinge regions. Similar keratin-bound substances were found in the crocodile and lizard stratum corneum. Nevertheless, the greater uniformity in histological structure and in distribution of chemical substances throughout the depth of the crocodile stratum corneum was in marked contrast to the lizards, which showed morphological differences, and differences in intensities of chemical reactions in the horny cells laid down early and late in each keratinization cycle. In the crocodile, keratin-bound S-S and SH are uniformly distributed in the horny scales, but in the lizards the superficial cells have most S-S and the lowermost keratinized cells most SH. The loosely arranged horny cells in the crocodile are shed in small flakes as in mammals, in contrast to lizards which undergo periodic sloughs of a compact stratum corneum. In the lizards, the intermediate layer between two horny layer generations contains no detectable S-S and is probably unkeratinized, so that when these cells die a fission zone is formed. The crocodile scales each contain a raised pigmented papule in which melanin is introduced into the epidermal cells, and keratinization is also different from the neighbouring area. Guanophores and lipophores are absent in the crocodile, although present in the lizards. All contain prominent dermal melanophores.     

The anatomy and ultrastructure of the suctorial organ of Solifugae (Arachnida)

Solifugae possess an evertable, adhesive pedipalpal organ (suctorial organ) at the tip of the distal tarsus of each pedipalp that is unique among arachnids. When inverted inside the pedipalp, the suctorial organ is covered with two cuticular lips, a dorsal upper lip and a ventral lower lip, but it can be protruded rapidly in order to facilitate grasping prey or climbing on bushes or even climbing on smooth surfaces due to its remarkable adhesive properties. In this study, the suctorial organs of different species from old world families Galeodidae and Karschiidae and new world families Ammotrechidae and Eremobatidae were investigated by means of light microscopy, scanning and transmission electron microscopy. In all representatives, the suctorial organ is formed by an evertable, cuticular pad with a complex internal stabilizing structure. The procuticle of this pad consists of a lattice-like basal plate and numerous stalked structures connected to this basal plate. The shafts of the stalked structures are regularly organized and ramify apically. The surface of the suctorial organ is constituted of a very thin epicuticle overlaying the ramifying apices forming ridges and furrows on the ventral side of the suctorial organ.     

Nature and cellular origin of the adhesive coats of the lamprey egg (Petromyzon marinus)

Cell surface coats are important in adhesion and other cellular activities. The lamprey egg possesses a surface coat that has been divided into two morphologically and functionally distinct regions. The amorphous apical tuft forms a cap over the animal pole, while the elaborately-textured adhesive coat covers the ventral two-thirds of the egg. This latter area is composed of saccules that form rosettes over the egg surface and is derived from the remains of specialized follicular cells which break down during ovulation. The adhesive qualities of these coats may be inhibited or abolished by various proteins and sulphydryl-blocking agents, thereby implicating, as a possible source of this adhesion, classes of acid and sulphated glycoproteins and glycosaminoglycans which occur on the egg surface.     

Fine structure of the dorsal lingual epithelium of the little tern, Sterna albifrons Pallas (Aves, Lari).

The dorsal surface of the tongue of the little tern, Sterna albifrons, has a distinctive anterior region for five-sixths of its length and a terminal posterior region. The anterior region observed by scanning electron microscopy is distinguished along its forward half by a median line from which median papillae protrude. The hind half of the anterior region has a median sulcus without papillae. The deciduous epithelium on both sides of the median line and sulcus bears scattered epithelial protrusions. The posterior lingual region has neither median papillae nor deciduous epithelium. So-called giant conical papillae are located in a transverse row between anterior and posterior regions. Delicate microridges adorn the surfaces of all outer epithelial cells in both regions. Examination of the dorsal lingual epithelium by light and electron microscopy provides histologic and cytologic criteria for distinguishing anterior and posterior regions. Basal cells are nearly alike throughout the dorsal epithelium. Intermediate layer cells of the anterior region contain numerous tonofibrils in electron-dense bundles composed of 10 nm tonofilaments. The outer layer is composed of electron-dense, well-keratinized cells, and electron-lucent epithelial protrusions are present on the exposed surface of the outermost cells. Median papillae are composed of typical keratinized cells, which are nearly filled with keratin filaments. Intermediate layer cells in the posterior region of the tongue are nearly filled with unbundled tonofilaments. There is only a very thin outer keratinized layer in this region.