Functions of fatty acid binding proteins

Summary Cytosolic fatty acid binding proteins (FABP) belong to a gene family of which eight members have been conclusively identified. These 14–15 kDa proteins are abundantly expressed in a highly tissue-specific manner. Although the functions of the cytosolic FABP are not clearly established, they appear to enhance the transfer of long-chain fatty acids between artificial and native lipid membranes, and also to have a stimulatory effect on a number of enzymes of fatty acid metabolism in vitro. These findings, as well as the tissue expression, ligand binding properties, ontogeny and regulation of these proteins provide a considerable body of indirect evidence supporting a broad role for the FABP in the intracellular transport and metabolism of long-chain fatty acids. The available data also support the existence of structure- and tissue-specific specialization of function among different members of the FABP gene family. Moreover, FABP may also have a possible role in the modulation of cell growth and proliferation, possibly by virtue of their affinity for ligands such as prostaglandins, leukotrienes and fatty acids, which are known to influence cell growth activity. FABP structurally unrelated to the cytosolic gene family have also been identified in the plasma membranes of several tissues (FABP_pm). These proteins have not been fully characterized to date, but strong evidence suggests that they function in the transport of long-chain fatty acids across the plasma membrane.     

Functions of intrinsic disorder in transmembrane proteins

Intrinsic disorder is common in integral membrane proteins, particularly in the intracellular domains. Despite this observation, these domains are not always recognized as being disordered. In this review, we will discuss the biological functions of intrinsically disordered regions of membrane proteins, and address why the flexibility afforded by disorder is mechanistically important. Intrinsically disordered regions are present in many common classes of membrane proteins including ion channels and transporters; G-protein coupled receptors (GPCRs), receptor tyrosine kinases and cytokine receptors. The functions of the disordered regions are many and varied. We will discuss selected examples including: (1) Organization of receptors, kinases, phosphatases and second messenger sources into signaling complexes. (2) Modulation of the membrane-embedded domain function by ball-and-chain like mechanisms. (3) Trafficking of membrane proteins. (4) Transient membrane associations. (5) Post-translational modifications most notably phosphorylation and (6) disorder-linked isoform dependent function. We finish the review by discussing the future challenges facing the membrane protein community regarding protein disorder.     

Functions and malfunctions of the tau proteins

The tau proteins belong to the family of microtubule-associated proteins. They are mainly expressed in neurons where they play major regulatory roles in the organization and integrity of the cytoskeleton network. Neurofibrillary changes of abnormally hyperphosphorylated tau are a key lesion in Alzheimer's disease and a number of other tauopathies. However, despite an ever-increasing body of data on the changes which tau undergoes in disease, its role regarding the fundamental disease process is still unclear. Moreover, conceptions of tau functions continue to evolve, which complicates an understanding of its role in the disease process. This review attempts to summarize data on the role of tau proteins in the context of both normal cellular function and dysfunction. Furthermore, we try to develop a mechanistic framework for the involvement of tau during the disease process. The review closes with a look towards various approaches to elucidate the functions and malfunctions of tau. Received 21 June 2002; received after revision 24 July 2002; accepted 29 July 2002 RID="*" ID="*"Corresponding author.     

Sialic acid binding lectins

The literature contains several reviews on lectins in general, covering mainly those from plants and invertebrates. However, the sialic acid binding lectins have not been reviewed so far. Considering the importance of sialic acids in cell sociology, lectins which specifically recognize terminal sialic acid residues are potentially useful as analytical tools in studying the biological functions of sialoglycoconjugates. These lectins, along with monoclonal antibodies raised against sialoglycoconjugates, have been used in the detection, affinity purification, cytochemical localization and quantitation of such glycoconjugates. In this review the main emphasis has been placed on the occurrence, general purification procedures, macromolecular properties, sugar specificities and applications of these lectins.     

Sialic acid binding lectins

Summary The literature contains several reviews on lectins in general, covering mainly those from plants and invertebrates. However, the sialic acid binding lectins have not been reviewed so far. Considering the importance of sialic acids in cell sociology, lectins which specifically recognize terminal sialic acid residues are potentially useful as analytical tools in studying the biological functions of sialoglycoconjugates. These lectins, along with monoclonal antibodies raised against sialoglycoconjugates, have been used in the detection, affinity purification, cytochemical localization and quantitation of such glycoconjugates. In this review the main emphasis has been placed on the occurrence, general purification procedures, macromolecular properties, sugar specificities and applications of these lectins.     

Cyclic AMP binding proteins in saliva

Summary Cyclic adenosine 3,5-monophosphate (cyclic AMP)-binding proteins which have the characteristics of cyclic AMP-dependent protein kinase (E.C. 2.7.1.37) regulatory subunits, have been identified in rat and human saliva. Concentration of these proteins was increased in rat saliva after stimulation with isoproterenol, suggesting that they were released during exocytosis. Cyclic AMP-dependent protein kinase catalytic activity was not measurable in saliva of either species.     

Biotin and fatty acid biogenesis inAspergillus flavus

Zusammenfassung Avidin vermindert die Biosynthese von Fettsäuren inAspergillus flavus, die nur von Biotin überwunden wird. Ähnliche Phänomene werden in anderen Pilzen gefunden.     

Functions of disordered regions in mammalian early base excision repair proteins

Reactive oxygen species, generated endogenously and induced as a toxic response, produce several dozen oxidized or modified bases and/or single-strand breaks in mammalian and other genomes. These lesions are predominantly repaired via the conserved base excision repair (BER) pathway. BER is initiated with excision of oxidized or modified bases by DNA glycosylases leading to formation of abasic (AP) site or strand break at the lesion site. Structural analysis by experimental and modeling approaches shows the presence of a disordered segment commonly localized at the N- or C-terminus as a characteristic signature of mammalian DNA glycosylases which is absent in their bacterial prototypes. Recent studies on unstructured regions in DNA metabolizing proteins have indicated their essential role in interaction with other proteins and target DNA recognition. In this review, we have discussed the unique presence of disordered segments in human DNA glycosylases, and AP endonuclease involved in the processing of glycosylase products, and their critical role in regulating repair functions. These disordered segments also include sites for posttranslational modifications and nuclear localization signal. The teleological basis for their structural flexibility is discussed.     

Evidence of soluble proteins binding adriamycin by affinity chromatography

Summary The presence in various tissues of soluble proteins binding adriamycin is evidenced by affinity chromatography.     

Pheromone binding proteins of the mouse,Mus musculus

Proteins of the Major Urinary Complex of the adult male mouse (Mus musculus) selectively bind the male pheromones 2-(sec-butyl)thiazoline and dehydro-exo-brevicomin, and concentrate them in urine.     

Tumour-promoting activity of fatty acid methyl esters in mice

Zusammenfassung Es wurden die Methylester der 12-Oxo-trans-10-octadecensäure und Hydroxyoctadecadiensäure (Produkte der Autoxidation ungesättigter Fettsäuren), sowie Methyloleat auf Mäusehaut appliziert und auf cancerogene Eigenschaften geprüft. Keiner der Ester wirkte als komplettes Carcinogen, hingegen zeigten alle Promotorwirkung. Am wirksamsten war Oxooctadecensäuremethylester, welches die Bildung von Hautpapillomen wie auch von Lymphomen förderte.

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This work wass upported by a grant from Miss Ane Martinussens Foundation, Aalborg.     

Ouabain-sensitive fatty acid release from isolated fat cells

Résumé La mobilisation des acides gras libres (FFA) induite par les hormones lipolytiques dans les cellules adipeuses isolées est inhibée par l'adjonction d'ouabaÏne. Le transport des FFA hors de la cellule semble lié en partie à la pompe Na⁺-K⁺. Une hypothèse sur le mode d'action de l'ouabaÏne est discutée.

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This work has been supported by the Fonds National Suisse de la Recherche Scientifique, Grant No. 3244, Bern (Switzerland) and by a grant-in-aid from the Fondation Emil Barell pour le Développement des Recherches Médico-Scientifiques, Basel (Switzerland).     

Evidence of soluble proteins binding adriamycin by affinity chromatography.

The presence of various tissues of soluble proteins binding adriamycin is evidenced by affinity chromatography.     

Ascorbic acid oxidizes thiol groups of plasma proteins

Zusammenfassung Ascorbinsäure oxydiert die Thiolgruppen der Proteine im Plasma menschlichen Blutes schnell. Diese Fähigkeit der Ascorbinsäure mag für biologische Systeme grössere Bedeutung haben.     

Variation in the fatty acid composition of developing seeds of rapeseed

Summary A study was made of the variation in the fatty acid composition of the oil in the developing seed of the Rafal cultivar of theBrassica napus L. cultivated in central Italy. The oil content reaches its maximum level 60 days after the petals fall. The increase in the percentage of oleic acid is negatively correlated with the palmitic, stearic and linoleic acid content.