The relationship between lignin and morphological characteristics of the tracheary elements from cacao(Theobroma cacao L.) Hulls

Tracheary elements (TEs) were physically separated from the hulls of cacao pods(Theobroma cacao L). Their morphological features were extensively investigated with scanning electron microscopy and chemical characterization. Spiral TEs were covered with a thin layer of primary wall that had a web-like structure on its outer surface. These TEs had a spiral circularity diameter of 8.2 ± 0.6 μm and an estimated secondary wall thickness of about 2.1 ± 0.2 μm. Polarized microscopy analysis revealed that the cellulose microfibrils were aligned parallel to that thickening. Lignin content was 36.1%, with a 0.13:1.00 molar ratio of syringyl to guaiacyl units and a 1.09:1.00 molar ratio of erythronic acid and threonic acid. Total yields of the alkaline nitrobenzene oxidation and ozonation products were 324.5 and 148.8 μmol g^-1 of extract-free TEs, respectively. Based on these morphological and lignin characteristics, we conclude that fully ripened cacao hulls exhibit the same features of secondary wall thickening as those seen at an earlier stage.     

水稻胚乳发育中淀粉体和蛋白体ATPase活性的动态变化

利用ATPase定位技术,对水稻品种(Oryza sativa L.cv．Minghui 63)胚乳细胞发育中后期淀粉体和蛋白体的ATPase活性进行了超微细胞化学定位。结果表明,在淀粉体内外膜上、淀粉粒间的通道上和淀粉体四周的无定形物上呈现显著的ATPase活性。蛋白体Ⅰ和蛋白体Ⅱ的膜上和四周的囊泡、小泡上均出现ATPase活性产物。另外,胚乳细胞的胞壁和质膜,糊粉层和亚糊粉层细胞的胞壁、质膜、细胞核和胞间连丝上也有定位的ATPase活性产物分布。根据ATPase活性产物分布特点,推测淀粉体内的网状通道是便于养分进入淀粉体内部的转运通道。淀粉体膜和蛋白体膜上的ATPase主要是为养分进入内部提供跨膜动力。     

Development of aleurone and sub-aleurone layers in maize

Electron-microscope studies indicate that the aleurone tissue of maize (Zea mays L.) starts developing approximately 10–15 days after pollination in stocks that take ca. 40 days for the aleurone to mature completely. Development commences when specialized endosperm cells adjacent to the maternal nucellar layer start to differentiate. Differentiation is characterized by the formation of aleurone protein bodies and spherosomes. The protein bodies of the aleurone layer have a vacuolar origin whereas the protein bodies of the immediate underlying endosperm cells appear to develop from protrusions of the rough endoplasmic reticulum. Thus, two morphologically and developmentally distinct types of protein bodies are present in these adjacent tissues. The spherosomes of the aleurone layer form early in the development of this tissue and increase in number as the tissue matures. During the final stages of maturation, these spherosomes become closely apposed to the aleurone grains and the plasma membrane. No further changes are apparent in the structure of the aleurone cells after 40 days from pollination when the caryopsis begins to desiccate.     

Structure of the skin of an air-breathing mudskipper, Periophthalmus magnuspinnatus

The epidermis of the mudskipper Periophthalmus magnuspinnatus consisted of three layers: the outermost layer, middle layer and stratum germinativum. Extensive vascular capillary networks were present near the superficial layer of epidermis and outermost layer. The diffusion distance between the vascular capillaries and the surface of epidermis was c . 1.5 ± 0.9μm. The middle layer consisted of small or voluminous cells swollen by epidermal cells. Due to the swollen cells, the thickness of the epidermis increased and the epidermis appeared web-like. The swollen cells contained tonofilaments, lucent contents and desmosomes. Fine blood capillaries were also discernible in this layer. Well-developed lymphatic spaces containing lymphocytes existed in the stratum germinativum. Numerous blood capillaries were present under the basement membrane. The dermis consisted of a stratum laxum and stratum compactum, and there was a definite area with acid mucopolysaccharides and a small scale in the stratum laxum. The skin had an epidermal pigment cell, dendritic melanophores (-cytes) containing melanin granules within their cytoplasm, and two kinds of dermal pigment cells, melanophores and colourless pigments containing reflecting platelets.     

Development of the pellicle and thecal plates following ecdysis in the dinoflagellateGlenodinium foliaceum

Summary The ultrastructure and development of the amphiesma of the dinoflagellateGlenodinium foliaceum was studied using conventional electron microscopy and immunocytochemistry. Ecdysis (shedding of the flagella, the outer two membranes of the cell, and the thecal plates) was induced by centrifugation. The cells were resuspended and the thickening of the pellicle and the development of the new thecal vesicles and plates was studied over a 9 h period. After ecdysis, the thin pellicle which underlay the thecal plates in the motile cells thickens to form a complex structure of four distinct layers: an outer layer of randomly oriented fibrils, a 50 nm layer of fibrils oriented perpendicular to the dense layer, the dense layer which has a trilaminate structure, and a wide inner homogeneous layer. The new thecal vesicles form in these pelliculate cells by the migration of electron translucent amphisomal vesicles over the layer of peripheral microtubules to a position directly under the plasmalemma. The thecal vesicles then flatten and elongate. A discontinuous pellicular layer appears within them. Subsequently, the thecal vesicles widen and are filled with a fibrillogranular substance overlying the pelliculate layer. The thecal plates form on top of this fibrillogranular material. By this time, most cells have escaped from the pellicle and are motile. At first, the outer thecal vesicle membrane is continuous with the inner thecal vesicle membrane at the sutures, but when this connection is broken, the dense pelliculate layers become continuous across the suture as does the inner thecal vesicle membrane. At ecdysis, this membrane becomes the new plasmalemma of the cell. Cells at each stage of pellicle thickening and thecal development were labelled with a polydonal antiserum raised against the 70 kDa epiplasmic protein ofEuglena acus. This antiserum labelled both the thecal plates of the motile cells and the inner homogeneous layer of the pellicle of ecdysed non-motile cells. No other amphiesmal structure was labelled, nor was any intracellular compartment.Abbreviations PBS phosphate-buffered saline - PIPES piperazine-N,N-bis[2-ethane sulfonic acid]     

Elastin production by cultured calf pulmonary artery endothelial cells

Calf pulmonary artery (CPA) endothelial cells synthesize and secrete soluble elastin when incubated in medium conditioned by arterial smooth muscle cells. Endothelial cell tropoelastin cross-reacts with antiserum to bovine ligamentum nuchae elastin and comigrates on SDS-PAGE with tropoelastins from fetal bovine ligamentum nuchae fibroblasts, aortic smooth muscle cells, and ear chondroblasts at an apparent molecular weight of 70,000. Endothelial cells synthesize only one-third as much elastin as these other cell types, however. Approximately 80% of the elastin synthesized by endothelial cells in confluent culture is released into the culture medium. The remaining 20% remains associated with the cell layer and is readily extractable with dilute acetic acid as un-cross-linked, 70,000-dalton tropoelastin. The addition of beta-aminopropionitrile to culture medium did not alter the ratio of tropoelastin in the medium and cell layer, suggesting that cross-linking of tropoelastin does not occur in culture. Immunofluorescent staining of confluent endothelial cell cultures with antielastin serum demonstrated elastin occurring as a web-like network of fine filaments extending throughout the extracellular space. The fibrous elastin was different in organization and distribution from fibers stained with antifibronectin serum, which were localized primarily beneath the cell layer and in regions of cell-cell contact. Extracellular matrix remaining after solubilization of cellular material with Triton X-100 stained positive for fibronectin, but not for elastin.     

Neutrophil intrinsic and extrinsic regulation of NETosis in health and disease

Neutrophil extracellular traps (NETs) evolved to protect the host against microbial infections and are formed by a web-like structure of DNA that is decorated with antimicrobial effectors. Due to their potent inflammatory functions, NETs also cause tissue damage and can favor and/or aggravate inflammatory diseases. This multipronged activity of NETs requires that the induction, release, and degradation of NETs are tightly regulated. Here we describe the key pathways that are intrinsic to neutrophils and regulate NETosis, and we review the most recent findings on how neutrophil extrinsic factors participate in the formation of NETs. In particular, we emphasize how bystander cells contribute to modifying the capacity of neutrophils to undergo NETosis. Finally, we discuss how these neutrophil extrinsic processes can be harnessed to protect the host against the excessive inflammation elicited by uncontrolled NET release.     

濒危植物海南风吹楠营养器官解剖结构特征

该研究采用石蜡切片和光学显微技术,对海南风吹楠营养器官的解剖结构及其对环境的适应性进行了探讨。结果表明:海南风吹楠为典型异面叶,叶片中脉发达,中部分化出髓,上表皮外侧具角质层,内侧具1层内皮层,下表皮外侧无角质层,有气孔器分布,气孔器为双环型,略下陷;栅栏组织3~4层细胞,海绵组织4~6层细胞。茎的初生结构中表皮轻微角质化,维管束为外韧型,8~10个初生维管束围绕髓排列为1轮;茎的次生结构中,表皮外部角质层加厚,维管柱紧密排列连成环状,次生韧皮部和次生木质部发达,形成层细胞3~5层。根的初生结构中表皮细胞外壁加厚,外皮层细胞体积大,形状不规则,内侧具1层形成层,内皮层具凯氏带,初生木质部为多原型,呈辐射状排列。根的次生结构中木栓层细胞5~6层,木栓层内侧具1层木栓形成层,栓内层细胞3层。海南风吹楠营养器官具有一定耐阴和耐旱结构特征,同时与其生活的热带雨林沟谷中高温荫湿的环境相适应。     

The Inhibitory Effect of 5-Bromodeoxyuridine on the Programmed Cell Death in the Chick Limb

The inhibitory effect of 5-bromodeoxyuridine (BrdU) on the programmed cell death in interdigital mesenchyme of a chick leg bud was studied using vital staining and histological methods. A single administration of BrdU at day 6 1/3 specifically inhibited the programmed cell death in the mesenchyme of interdigital areas of a leg bud, resulting in the formation of a web-like structure. No inhibitory effect was observed on general development of limb buds. Hoechst 33258 staining revealed that many cells of interdigits incorporated BrdU into their nuclei. The simultaneous administration of thymidine blocked the BrdU effect.     

Keratinization of fish skin with special reference to the catfish Bagarius bagarius

Summary Histochemical reactions indicating keratinization have previously been demonstrated in parts of the epidermis of Bagarius bagarius. Fluorescence histochemistry and electron microscopy have now confirmed these results. Elevated areas of the epidermis are capped by a layer of dead cells with altered contents. On the outer aspect of these cells a dense layer, 18 nm thick, beneath the plasma membrane corresponds to the resistant envelope found in keratinized cells in tetrapod vertebrates. In Bagarius this layer does not extend to all faces of the keratinized cells, but a similar envelope has been detected in two other sites of piscine keratinized epidermis investigated, namely in the breeding tubercles of Phoxinus phoxinus and in the teeth of Lampetra fluviatilis. In the elevated areas of Bagarius-epidermis, the epithelial cells undergo progressive changes in cytoplasmic organization as they become more superficial. The second tier from the surface is sealed by tight junctions and is separated from the overlying keratinized cells by a sub-corneal space resembling that found in keratinized amphibian epidermis. Histochemical evidence of a high lipid content in the outer layers of the epidermis correlates with the presence of lipid inclusions and lamellated membranous profiles in the material studied by electron microscopy. Histochemical results show that the fin skin of Blennius pholis is not keratinized, but secretes a cuticle, histochemically reactive for both proteins and glycoproteins.     

Ultrastructural localization of ependymins in the endomeninx of the brain of the rainbow trout: possible association with collagen fibrils of the extracellular matrix

In the rainbow trout, ependymins represent the predominant protein constituents of the cerebrospinal fluid (CSF) and perimeningeal fluid (PMF). Synthesis of these glycoproteins occurs exclusively in the endomeninx. Generally, ependymins share characteristics with proteins mediating cell-contact phenomena. Here, we show that the endomeninx of the rainbow trout is composed of three different layers, viz. an outer layer, an arachnoid-like intermediate barrier layer and an inner layer. This structure is in agreement with a meningeal barrier concept separating the PMF from the CSF. Furthermore, by immuno-electron microscopy, we have localized the majority of intracellular ependymins to the rough endoplasmic reticulum of fibroblast-like cells of the inner layer and to cells to the intermediate barrier layer. This pattern is compatible with the observed distribution of ependymins in both the PMF and CSF. In addition to their intracellular localization, an extracellular association of ependymins with bundles of collagen fibrils is demonstrated; this is particularly pronounced around all blood vessels of the brain.     

On the epidermal structure ofboleophthalmus andscartelaos mudskippers with reference to their adaptation to terrestrial life

The skin structures of 4 species of oxudercine gobies (3 species ofBoleophthalmus and 1 species ofScartelaos) were investigated in relation to the terrestrial exposure of these fishes. These species have similarities in both lifestyle and skin structure. The specializations for terrestrial life mainly include the presence of dermal bulges, a thick middle cell layer, and a vascularized epidermis. Moreover, mucous cells are distributed only on the epidermis where the capillaries are undeveloped. In all species, the dermal bulges are large on the head and dorsal body, which are most often exposed to the air, and push up a thin epidermis, forming so-called papillae. Capillaries are densely distributed on the apical area of each papilla. InBoleophthalmus, the middle cell layer is thicker, the bulges are larger and distributed over a greater part of the body, and the area of the skin surface having the papillae is larger than it is inScartelaos. These differences suggest that the contribution of the skin to respiration is comparatively large inBoleophthalmus species, reflecting their more frequent activities on mudflats relative to the activities of theScartelaos species, which prefer to stay in the water. Mucous cells are abundantly distributed on the epidermis surface between the papillae in all species. The separation of the capillaries and the mucous cells may be due to an impeding of gas exchange by the mucus.     

Ovipositor ultrastructure of the striped bitterling Acheilognathus yamatsutae (Teleostei: Acheilognathinae) during spawning season

The ovipositor of striped bitterling Acheilognathus yamatsutae was subjected to ultrastructure and histochemical analysis during spawning season using light and electron microscopy. Although the ovipositor of A. yamatsutae is a long cylindrical tube with smooth external surface, it was possible to confirm the presence of well-developed fingerprint structure using scanning electron microscopy. Internal aspect analysis of ovipositor revealed formation of 5–8 longitudinal folds. Cross section analysis revealed that the ovipositor is composed of an outer epithelial layer, a mid connective tissue layer, and an inner epithelial layer. The outer epithelial layer contains 7–9 cell layers composed mainly of epithelial and mucous cells. Result of AB–PAS (pH 2.5) and AF–AB reaction showed that mucous cells contained mainly acidic carboxylated mucosubstances. The connective tissue layer was loose and made mainly of collagen fibers and some muscle fibers, along with blood vessels and a small number of chromatophores. The inner epithelial layer, which is a single layer, is composed of columnar epithelia. Observation under transmission electron microscope enabled distinction of the outer epithelial layer into superficial, intermediate and basal layers. Although the types of cells in the superficial tissue layer were diverse, they all shared the development of glycocalyx covered microridges. The majority of epithelial cells in the intermediate layer were cuboidal shaped, while those in the basal layer were columnar. Two types (A and B) of secretory cells were observed in the outer epithelial layer. The connective tissue layer had two types of chromatophores including xantophore and melanophore, in addition to a well-developed nerve fiber bundles. Columnar epithelial cells, mitochondria-rich cells and rodlet cells were observed in the inner epithelial layer. Microvilli were well developed on the free surface of columnar epithelial cells.     

Surface-induced synthesis of new sulfonolipids in the gliding bacterium Cytophaga johnsonae

Many simple gliding bacteria contain significant quantities of phosphate-free, sulfur-containing lipids (sulfonolipids; N-acylamino-3-hydroxyisoheptadecane-1-sulfonic acids, or N-acyl capnines) that recently were shown to function in the ability of Cytophaga johnsonae to migrate over solid surfaces. Reported here is the synthesis, by surface-grown Cytophaga johnsonae cells, of two additional sulfonolipids not present in cells grown in liquid media. These newly characterized sulfonolipids are more polar than the N-acylcapnines characteristic of liquid grown cells. Acid methanolysis of the sulfonolipids revealed that the aminosulfonate capnine was common to all, thus indicating that the chemical differences in the compounds resided in their N-fatty acyl groups, and not in the aminosulfonate moiety. Instead of the non-hydroxy and 3-hydroxy fatty acyl moieties present in sulfonolipids of liquid-grown cells, one new sulfonolipid contained a 2-hydroxy, branched C₁₅ fatty acid, while the other contained a 2,3-dihydroxy, isobranched C₁₆ fatty acid, as indicated by gas chromatographic and mass spectrometric analyses. Although the structure of sulfonolipids thus varies between surface- and liquid-grown cells, no difference was found between the total quantity of sulfonolipids present under either of these conditions. The surface-dependent synthesis of these more polar N-acyl-aminosulfonates ceased immediately when surface-grown populations were suspended in broth. The ability of Cytophaga johnsonae to synthesize these compounds in response to a solid surface may be significant in relation to the organism's ability to migrate over such surfaces; it is one of few instances where a physical interaction of the cell surface has been shown to influence the molecular composition of a prokaryote.Abbreviations LTY tryptone yeast extract medium - TLC thin layer chromatography - FAME fatty acid methyl ester - ECL equivalent chain length - T _r retention time - TMS trimethylsilyl - TFA trifluoroacetyl     

Ultrastructure and histochemical analysis of extracellular matrix surface network in kiwifruit endosperm-derived callus culture

The study used Actinidia deliciosa endosperm-derived callus to investigate aspects of the morphology, histology and chemistry of extracellular matrix (ECM) structures in morphogenically stable tissue from long-term culture. SEM showed ECM as a membranous layer or reticulated fibrillar and granular structure linking the peripheral cells of callus domains. TEM confirmed that ECM is a distinct heterogeneous layer, up to 4 mum thick and consisting of amorphous dark-staining material, osmiophilic granules and reticulated fibres present outside the outer callus cell wall. ECM covered the surface of cells forming morphogenic domains and was reduced during organ growth. This structure may be linked to acquisition of morphogenic competence and thus may serve as a structural marker of it in endosperm-derived callus. ECM was also observed on senescent cells in contact with the morphogenic area. Treatment of living calluses with chloroform and washing with ether-methanol led to partial destruction of the extracellular layer. Digestion with pectinase removed the membranous layer almost completely and exposed thick fibrillar strands and granular remnants. Digestion with protease did not visibly affect the surface layer. Indirect immunofluorescence showed low-methylesterified pectic epitopes labelled by JIM5 monoclonal antibody. Immunolabelling, histochemistry, and solvent and enzyme treatments suggested pectins and lipids as components of the surface layer. These compounds may indicate protective, water retention and/or cell communication functions for this external layer.     

Is quantity of protein in barley forms determined by proteins localized in the subaleurone layer?

Barley biotypes from the world collection differ in their storage protein content even till 200 %. This is the first report including results of the research, in which the structure of grains containing different amount of protein was tested to explain this difference. The endosperm was investigated using scanning electron microscopy. The structure of the aleurone layer, storing large quantities of protein, did not differ between the high- and low-protein forms of barley. It has been proven that the large quantities of kernel protein may be stored in some cells of the zone adjacent to the aleurone layer, defined as the subaleurone cells. It has been shown that morphologically uniform kernels of the same plant and even of the same ear can vary greatly with respect to the number of these subaleurone cells. The purpose of the study was an examination of variation in protein structure in single kernels of a fodder, a brewery and in an extra high-protein form of barley as well. Moreover the studies were aimed to detect qualitative differences in the subaleurone protein. Application of mass spectrometry made possible the identification of several kinds of proteins which were present in subaleurne layer of kernels. In the granule-bound protein fraction isolated from the subaleurone type kernels, a much stronger representation of some protein was found, with the molecular mass between 29 and 45 kDa, in comparison with the low-protein kernels. It is supposed, that these protein are isoforms of z-type serpin and B3-hordein.     

The Golgi apparatus in epidermal mucoid and ellipsoid-vacuolate cells ofAeolidia papillosa andCoryphella rufibranchialis (Nudibranchia)

Summary The epidermal cell layer of the apical end of the ceras was investigated in two species of aeolid nudibranchs. Based on cellular inclusions, mostly two cell types were found: mucoid and ellipsoid-vacuolate cells. Mucoid cells ofCoryphella rufibranchialis have large heterogeneous and fibrillar secretory granules whereas inAeolidia papillosa, the granules are homogeneous, but vary in electron density from one cell to another. Ellipsoid-vacuolate cells contained large quantities of small vacuoles with an included ellipsoidal structure. Both species contained very numerous ellipsoid-vacuolate cells. Secretory granules and ellipsoid-vacuoles appear to arise from the Golgi apparatus and these contents stain with PAS, suggesting a polysaccharide composition. Mucoid cells contained both secretory granules and ellipsoid-vacuoles which may arise from the same Golgi apparatus.     

酸枣根系结构可塑性对自然梯度干旱生境的适应机制

根系是植物吸收水分和养分的主要器官,是直接接触土壤最先感受土壤逆境胁迫的部位。在干旱环境中,植物根系的结构特征必定发生改变以维持正常的生物机能而生存。目前,关于根系解剖结构的研究大多集中于根系的某一特定结构对单一逆境因子的响应。以生长在烟台-石家庄-银川-吐鲁番不同地域气候条件形成的自然梯度干旱环境中的酸枣为试验材料,应用植物显微技术研究酸根系结构的可塑性对不同自然梯度干旱环境的适应机制,结果表明:酸枣根的初生结构包括表皮、皮层和维管柱,表皮位于幼根的最外层,由单层体积较小、紧密排列的表皮细胞组成。皮层占根初生结构的大部分比例,由体积较大的多层薄壁细胞组成,薄壁细胞近似圆球形,数目众多,呈环形分布。维管柱位于最内层,细胞小而密集,由中柱鞘、初生木质部、初生韧皮部及薄壁细胞组成。随生境干旱加剧,酸枣根初生结构表皮细胞的厚度和宽度逐渐增加,皮层薄壁细胞的厚度和宽度、皮层薄壁细胞层数和皮层厚度均以宁夏银川样地的最大。酸枣根的次生结构包括周皮(木栓层、木栓形成层、栓内层)和次生维管组织(次生韧皮部、维管形成层和次生木质部)。从烟台至新疆吐鲁番随生境干旱加剧,酸枣植株根系周皮逐渐加厚、致密度提高。次生木质部中,导管的数量增加,管径增大。干旱环境中,酸枣植株根系结构上的变化一方面提高了吸水能力和输水效率,另一方面增强了保水能力,减少水分散失,这可能是其适应干旱逆境的机制之一。     

Putative neurotransmitters in the retinae of three urodele species (Triturus alpestris,Salamandra salamandra,Pleurodeles waltli)

Summary The immunocytochemical localization of several substances with putative neurotransmitter or modulator properties was investigated in the retinae of three urodele species. Gamma-aminobutyric acid-like immunoreactive labelling appeared in different types of amacrine and horizontal cells. In addition, labelled fibres in the optic nerve were detected. It was not possible to determine whether these fibres were ganglion-cell axons or part of an efferent projection. Endogenous serotonin was found in several populations of amacrine cells including stratified and diffuse types. Glucagon-like immunoreactivity appeared in one bistratified amacrine cell type, and neurotensin-like immunoreactivity was detected in a single monostratified amacrine cell type. Metenkephalin-like-immunoreactive labelling was rare but found in several sublaminae of the inner plexiform layer. Thus each peptide-like-immunoreactive cell type makes up a distinct and unique population of cells and probably has a special functional role in retinal processing. There are striking similarities in the peptide-like immunoreactive patterns of Triturus alpestris and Necturus maculosus whereas in Ambystomatidae the peptide-like-immunoreactive systems appear to be differently organized. This supports the hypothesis that Salamandridae and Proteidae are more closely related to each other than to the Ambystomatidae.Abbreviations GABA gamma-aminobutyric acid - GCL ganglion cell layer - Glu glucagon - HRP horseradish peroxidase - INL inner nuclear layer - IPL inner plexiform layer - IR immunoreactive or immunoreactivity - M-enk metenkephalin - Neu neurotensin - OFL optic fibre layer - ONL outer nuclear layer - OPL outer plexiform layer - Ser serotonin This work forms part of the doctoral thesis of Gaby Gläsener, Faculty of Biology, Technical University of Darmstadt, Federal Republic of Germany. Supported by a research grant from the Deutsche Forschungsgemeinschaft (Hi 306/1-1)     

Structure of the cell surface of the yeast Candida tropicalis and its relation to hydrocarbon transport

The surface structure of the hypdrocarbon-utilizing yeast Candida tropicalis was investigated by scanning and transmission electron microscopy (SEM and TEM respectively). The sample preparation technique was based on a rapid cryofixation without any addition of cryoprotectants. In subsequently freeze-dried samples the surface structure was analysed by scanning electron microscopy. Thin sections were prepared from freeze substituted samples. Both techniques revealed hair-like structures at the surface of hydrocarbon-grown cells. The hairy surface structure of the cells was less expressed in glucose-grown cells and it was absent completely after proteolytic digestion of the cells. When cells were incubated with hexadecane prior to cyryofixation a contrast-rich region occured in the hair fringe of thin sections as revealed by TEM. Since these structures were characteristic for hexadecane-grown cells and could not be detected in glucose-grown or proteasetreated cells it was concluded that they originate from hexadecane adhering to the cell surface and are functionally related to hexadecane transport. The structure of the surface and its relation to hydrocarbon transport are discussed in view of earlier results on the chemical composition of the surface layer of the cell wall.Abbreviations SEM Scanning electron microscopy - TEM transmission electron microscopy