Human lysyl hydroxylases:characterization of a novel isoenzyme and its gene, determination of the domain structure of the lysyl hydroxylase polypeptides and generation of knock-out mice for the novel isoenzyme

Rautavuoma, K. (Kati)

23 October 2003

Abstract Lysyl hydroxylase (E.C. 1.14.11.4) catalyzes the formation of hydroxylysine in collagens and other proteins with collagenous domains. The resulting hydroxylysine residues participate in the formation of collagen crosslinks, and serve as attachment sites for carbohydrate units. They have been regarded as non-essential, since the absence of lysyl hydroxylase 1 activity is not lethal, although it leads to the kyphoscoliotic type of Ehlers-Danlos syndrome, and since recombinant collagens I and III lacking any hydroxylysine form native-type fibrils in vitro. A novel human lysyl hydroxylase isoenzyme, lysyl hydroxylase 3, was identified, cloned and characterized here. The novel isoenzyme was expressed as a recombinant protein in insect cells, and the protein was shown to catalyze hydroxylation of lysine residues in vitro. No differences were found in the catalytic properties between the recombinant lysyl hydroxylases 3 and 1. The human lysyl hydroxylase 3 gene was shown to be 11.6 kb in size and to contain 19 exons. The introns contain 15 full-length or partial Alu retroposons, which are known to be involved in most human gene rearrangements that occur by homologous recombination. The three recombinant human lysyl hydroxylase isoenzymes were isolated here for the first time as homogenous proteins. Limited proteolysis data suggested that the lysyl hydroxylase polypeptides might consist of at least three distinct domains, A-C. The N-terminal domain A was found to play no role in lysyl hydroxylase activity as a recombinant B-C polypeptide was a fully active hydroxylase. This work also confirmed that lysyl hydroxylase 3 has collagen glucosyltransferase activity as well as trace amounts of collagen galactosyltransferase activity. However, the levels of these activities were so low that their biological significance remains to be determined. In the last part of this work, lysyl hydroxylase 3 knock-out mice were produced and analyzed. The homozygous null embryos were found to die at a very early stage of development due to lack of type IV collagen in the basement membranes. The data demonstrated that hydroxylysine formed by lysyl hydroxylase 3 is essential for early mouse development and that lysyl hydroxylase 1 or 2 cannot compensate for the lack of its function.

basement membrane

collagen

fetal development

gene structure

lysyl hydroxylase

transgenic mice

Prolyl 4-hydroxylase:genomic cloning of the human and mouse α(II) subunit, tissue distribution of type I and II isoenzymes, and cloning and characterization of a novel prolyl 4-hydroxylase from Caenorhabditis elegans

Nissi, R. (Ritva)

04 July 2002

Abstract The collagens are a family of extracellular matrix proteins with a widespread tissue distribution. Collagen biosynthesis requires the hydroxylation of a number of proline residues by prolyl 4-hydroxylase. This posttranslational modification is essential for the synthesis of all collagens, as 4-hydroxyproline deficient collagens cannot form stable triple helices at body temperature. The genes for the human and mouse prolyl 4-hydroxylase α(II) subunits were cloned and characterized in this study. The human and mouse genes are 34.6 and 30.3 kb in size, respectively, consisting of 16 exons and 15 introns. The intron sizes vary from 48-49 bp to over 8 kb in both genes. The 5' flanking regions contain no TATA box, but there are several motifs that may act as transcription factor binding sites. A novel mutually exclusively spliced exon 12a was identified in both genes. Both variants of the α(II) subunit were found to be expressed in a variety of tissues and both formed a fully active recombinant tetramer with the β subunit when expressed in insect cells. Tissue distribution of the type I and type II prolyl 4-hydroxylase isoenzymes was studied in developing, mature, and malignant cells and tissues by immunofluorescence and Western blotting. The results indicate that the type I isoenzyme is the main form in many cell types. Skeletal myocytes and smooth muscle cells appeared to have the type I isoenzyme as their only prolyl 4-hydroxylase form, whereas the type II isoenzyme was clearly the main form in chondrocytes. A strong signal for the type II enzyme was detected in cultured umbilical and capillary endothelial cells, whereas the type I isoenzyme could not be detected in these cells by immunostaining or Western blotting. Similar studies on primary chondro- and osteosarcomas and benign bone tumours indicated that the type I isoenzyme is the predominant form in both types of bone sarcoma, whereas the type II isoenzyme was more abundantly expressed in benign tumours. In chondrosarcomas, the type II isoenzyme was expressed in the nonmalignant chondrocytes, whereas their malignant counterparts switched their expression pattern to that of the type I isoenzyme. Two isoforms of the catalytic prolyl 4-hydroxylase α subunit, PHY-1 and PHY-2, have previously been characterized from Caenorhabditis elegans. This study reports the cloning and characterization of a third C. elegans α subunit isoform, PHY-3, which is much shorter than the previously characterized vertebrate and C. elegans α subunits. Nematodes homozygous for a phy-3 deletion were phenotypically wild type and fertile, but the 4-hydroxyproline content of their early embryos was reduced by about 90%. The expression of PHY-3 was found to be restricted to spermatheca of late larvae and adult nematode, indicating that PHY-3 is likely to be involved in the synthesis of collagens of the early embryo egg shells.

collagen biosynthesis

gene structure

isoenzyme

primary bone tumours

prolyl 4-hydroxylase

tissue specificity

C. elegans

Lysyl hydroxylases:characterization of mouse lysyl hydroxylases and generation of genetically modified lysyl hydroxylase 3 mouse lines

Ruotsalainen, H. (Heli)

31 May 2005

Abstract Lysyl hydroxylase (EC 1.14.11.4, procollagen-lysine, 2-oxyglutarate, 5-dioxygenase, Plod) catalyzes the hydroxylation of certain lysine residues in collagens and in other proteins with collagenous domains. Three lysyl hydroxylase isoforms have been cloned from human and rat. The importance of lysyl hydroxylase 1 in collagen biosynthesis is demonstrated by the heritable disorder, Ehlers-Danlos syndrome type VI, which is characterized by joint laxity, progressive scoliosis, muscle hypotonia, scleral fragility and rupture of the ocular globe. An alternatively spliced form of lysyl hydroxylase 2 seems to function as a telopeptide lysyl hydroxylase. Lysyl hydroxylase 3 has three enzyme activities, lysyl hydroxylase, hydroxylysyl galactosyltransferase (EC 2.4.1.50), and galactosylhydroxylysyl glucosyltransferase (EC 2.4.1.66) activities that have been demonstrated earlier with in vitro experiments. In this thesis study, the cDNAs of mouse lysyl hydroxylase isoforms 1, 2 and 3 were cloned and characterized and the gene structures of lysyl hydroxylase 2, Plod2, and lysyl hydroxylase 3, Plod3, were determined. Mouse lysyl hydroxylase isoforms were found to be highly homologous to the corresponding human isoforms and they were approximately 60% identical with each other. The mouse Plod3 gene has 19 exons as do the human PLOD1 and PLOD3 genes, and mouse Plod2, like the human PLOD2, has 20 exons including one alternatively spliced extra exon. The mouse isoforms were also found to have distinct tissue distributions. Phylogenetic analysis revealed that the lysyl hydroxylase genes have evolved from an ancestral gene through two gene duplication events. Lysyl hydroxylase 3 was demonstrated to be the oldest isoform, which is further supported by the association of glycosyltransferase activities with lysyl hydroxylase 3 and with the only lysyl hydroxylase of Caenorhabditis elegans. The roles of the different enzyme activities of lysyl hydroxylase 3 were determined in vivo by generating three genetically modified lysyl hydroxylase 3 mouse lines. The analysis of these mouse lines demonstrated that lysyl hydroxylase 3 possesses at least lysyl hydroxylase and glucosyltransferase activities in vivo and it functions as the main, if not the only glucosyltransferase during embryogenesis. The absence of lysyl hydroxylase 3 and, especially, its glucosyltransferase activity results in the abnormal glycosylation of type IV collagen, and thus causes a severe basement membrane defect leading to death during early development. By contrast, lysyl hydroxylase activity had no effect on embryonic development, but caused changes in the structure of the epidermal basement membrane and changes in collagen fibril organization and probably in their interactions.

basement membrane

gene structure

glycosyltransferase

isoenzymes

phylogeny

transgenic mice

Genetic studies of collagen types XV and XVIII:type XV collagen deficiency in mice results in skeletal myopathy and cardiovascular defects, while the homologous endostatin precursor type XVIII collagen is needed for normal development of the eye

Eklund, L. (Lauri)

19 November 2001

Abstract Overlapping genomic clones coding for the α1 chain of mouse type XV collagen (Col15a1) were isolated. The gene was found to be 110 kb in length and to contain 40 exons. Analysis of the proximal 5'-flanking region showed properties characteristic of a housekeeping gene promoter, and functional analysis identified cis-acting elements for both positive and negative regulation of Col15a1 gene expression. The general exon-intron pattern of the mouse Col15a1 gene was found to be highly similar to that of its human homologue, and comparison of 5'-flanking sequences indicated four conserved domains. The genomic area encoding the end of the N-terminal non-collagenous domain nevertheless showed marked divergence from the human form. Due to the lack of two exons coding for the N-terminal collagenous domain and a codon divergence in one exon, the mouse β1(XV) chain contains seven collagenous domains whereas the human equivalent contains nine. In order to understand the biological role of this protein, a null mutation in the Col15a1 gene was introduced into the germ line of mice. Despite the wide tissue distribution of type XV collagen, the null mice developed and reproduced normally and were indistinguishable from their wild-type littermates. After three months of age, however, microscopic analysis revealed progressive histological changes characteristic of myopathic disorder, and treadmill exercise resulted in greater skeletal muscle injury than in the wild-type mice. Irrespective of potential anti-angiogenic properties of type XV collagen-derived endostatin, the number of vessels appeared normal. Nevertheless, ultrastructural analyses revealed markedly abnormal capillaries and endothelial cell degeneration in the heart and skeletal muscle. Perfused hearts showed a diminished inotropic response, and exercise resulted in cardiac injury, changes that mimic early or mild heart disease. Thus type XV collagen appears to function as a necessary structural component for stabilizing cells with surrounding connective tissue in skeletal muscle cells and microvessels. Mice lacking the type XV collagen homologue, type XVIII collagen, showed delayed regression of blood vessels in the vitreous body of the eye and abnormal outgrowth of the retinal vessels. This suggests that collagen XVIII plays a role in regulating vascular development in the eye. Moreover, type XVIII collagen was found to be important at the surface between the inner limiting membrane and the collagen fibrils of the vitreous body. Col18a1 deficient mice serve as an animal model for the recessively inherited Knobloch syndrome, characterized by various eye abnormalities and occipital encephalocele. The results presented in this thesis indicate diverse biological roles for the closely related collagen types XV and XVIII.

Knobloch syndrome

angiogenesis

endostatin

eye

gene structure

heart

promoter analysis

skeletal muscle

transgenic mice

Genomics and Phylogeny of Motor Proteins: Tools and Analyses / Genomik und Abstammungsgeschichte von Motorproteinen: Werkzeuge und Analysen

Odronitz, Florian

23 January 2008

No description available.

570 Biowissenschaften, Biologie

WF 200

WF 600

Mathematics and Natural Science

Myosin

Genomik

Genstruktur

Evolution

Myosin

Genomics

Gene Structure

Evolution

42.10

42.21

42.13

42.20

54.65

Struktur und Funktion des Gens für das translationell kontrollierte Tumorprotein (TCTP)

Thiele, Holger

28 February 2000

Das translationell kotrollierte Tumorprotein (TCTP) ist ein bei Eukaryonten vorkommendes hochkonserviertes Protein, das eine Rolle bei der Pathogenese allergischer Erkrankungen spielt. Bei atopischen Kindern vermittelt es eine IgE abhängige Histaminfreisetzung aus basophilen Granulozyten. Die zugrundeliegenden Mechanismen sind jedoch unklar. TCTP hat die Eigenschaft, an das Tubulin des Zytoskeletts der Zelle zu binden und besitzt eine hohe Affinität für Kalzium. Seine Synthese wird auf dem transkriptionellen und translationellen Niveau reguliert. Eine früher angenommene spezifische Funktion in Tumorzellen konnte nicht bestätigt werden. Das für TCTP kodierende Gen wird als TPT1 bezeichnet. Um die molekulare Basis für die Kontrolle der Synthese des TCTP zu verstehen, wurden in dieser Arbeit Struktur und Funktion des TPT1-Gens bei Mensch und Kaninchen untersucht. Erstmalig wurde die vollständige Struktur eines Säuger-TPT1-Gens durch Klonierung und Sequenzierung aufgeklärt und die funktionelle Rolle des Promotors analysiert. Das 3,8 kb große Kaninchengen wird durch fünf Introns unterbrochen, und kodiert für zwei mRNAs von 843 und 1163 nt, die sich in der Länge der 3' untranslatierten Region unterscheiden. Sie entstehen durch alternative Polyadenylierung. Vom Human-Gen wurden genomische Rekombinanten isoliert und seine vorläufige Struktur ermittelt. Es besitzt eine identische Intron/Exon Architektur und unterscheidet sich nur geringfügig in der Länge der Introns. Auch bei der Expression des Human-Gens entstehen zwei mRNAs. Hybridisierungsexperimente mit RNA aus 10 Kaninchen- und 50 Human-Geweben zeigten, daß beide TCTP mRNAs in allen untersuchten Geweben in ähnlichem Verhältnis zueinander exprimiert werden. Die Gesamtkonzentrationen der TCTP- mRNAs unterschied sich jedoch in verschiedenen Gewebegruppen bis zum Faktor 100. Dies deutet auf eine ausgeprägte Regulation der gewebsspezifischen Transkription hin. Die Promotorstrukturen von 1,2 kb 5'-flankierender Sequenzen des Kaninchen- Gens wurden mit Computerprogrammen auf Bindungsstellen für Transkriptionsfaktoren analysiert. Für funktionelle Aussagen wurden Promotorfragmente mit dem Chloramphenicol-Acetyltransferase-Gen (cat) gekoppelt und die Promotoraktivität durch Bestimmung der CAT-Enzymaktivität nach Zelltransfektionen ermittelt. Ein minimaler Promotor von 66 bp Länge, der eine TATA-Box enthält, konnte eingegrenzt werden. Die maximale Promotoraktivität, die 90% im Vergleich zum starken Thymidinkinase-Promotor betrug, war mit einem 290 bp langem Fragment assoziiert und enthielt eine SP-1, zwei AP-1/CREB und zwei ETS Bindungsstellen. Diese Konstellation ist ein häufiges Merkmal von Genen, die wie das TPT1-Gen durch Phorbolester und Lipopolysaccharide induzierbar sind. Im Sequenzbereich bis -160 sind die Promotoren des Human- und des Kaninchen-Gens sehr ähnlich (89% Homologie), alle Bindungsorte für Transkriptionsfaktoren sind hier konserviert. Weiterhin wurde im Kaninchengenom eine Vielzahl von prozessierten TPT1- Pseudogenen.gefunden. Sechs von ihnen und ihre genomisch-flankierenden Integrationsorte wurden sequenziert. Sie repräsentierten beide mRNA Typen und waren zu über 99% zu den korrespondierenden mRNAs homolog. Die Leserahmen aller Pseudogene waren intakt, bei zwei Pseudogenen war die Aminosäuresequenz sogar unverändert erhalten. Die durch CAT-Assays getestete Transkriptionsaktivität der 5'flankierenden Region eines Pseudogens zeigte eine Aktivität von über 15% gegenüber dem authentischen TPT1-Promotor. Dies ist ein Indiz für eine mögliche Expression von TPT1 Pseudogenen in vivo. / The translationally controlled tumor protein (TCTP) is a conserved eukaryotic protein, which is involved in the pathogenesis of allergic diseases. In atopic children it has been reported to mediate histamine release from basophilic leukocytes in an IgE dependent way. The underlying mechanism, however, is unknown. TCTP is characterized by an efficient binding to tubulin of cytoskeletal structures and by a high calcium affinity. Its synthesis is regulated at the transcriptional and translational level. A specific function in tumor cells, which was assumed initially, could not be confirmed. The gene coding for TCTP is called TPT1. To understand the molecular basis for the control of TCTP expression structure and function of the human and rabbit TPT1 genes were investigated including their promoter regions. The first mammalian TPT1 gene (rabbit) was cloned and sequenced. It consists of 3.8 kb and is interrupted by five introns. Two mRNAs of 843 and 1163 nt length are transcribed differing in their 3'untranslated regions. They are generated by alternative polyadenylation. Furthermore genomic recombinants were isolated containing the human TPT1 gene and a preliminary structure of the gene was established. The human gene has the same intron/exon architecture as the rabbit gene just differing in the length of its introns. Human multi-tissue dotblots revealed an identical transcription pattern for both mRNAs. The concentration of the TCTP mRNAs differed up to the factor 100 between different tissues, indicating distinct tissue specificity in transcriptional control. 1.2 kb 5'flanking promoter structures were analyzed for transcription factor binding sites. For functional studies TPT1 promoter fragments were fused to the chloramphenicol acetyltransferase (CAT) reportergene and assayed by cell transfection and CAT enzyme activity. A basic promoter of 66 bp length containing a TATA box could be defined. Maximal promoter activity of 90% compared to the strong thymidine kinase promoter was associated with a fragment of 290 bp containing a SP-1, two AP-1/CREB and two ETS binding sites. This is a common feature of genes like TPT1, which are inducible by phorbolesters and lipopolysaccharides. Furthermore, numerous processed TPT1 pseudogenes were found spread through the rabbit genome. Six pseudogenes and their flanking genomic integration sites were sequenced. They represented both mRNA types and were at least 99% homologous to the corresponding mRNAs. In all pseudogenes the open reading frames were retained and in two of them the original amino acid sequence was even conserved completely. The 5'flanking region of one pseudogene was tested for transcriptional activity by CAT assays and revealed an activity of about 15% of the authentical TPT1 promoter. This could suggest a possible expression of TPT1 pseudogenes in vivo.

Histamin Freisetzungsfaktor (HRF)

Genstruktur

Promotor

histamin releasing factor (HRF)

gene structure

promoter

610 Medizin

33 Medizin

XH 5200

ddc:610

Isolierung, Identifizierung und funktionelle Charakterisierung der Metallo-Aminopeptidase CaApe2 — Ein experimenteller Beitrag zur Beurteilung des kariogenen Potentials von Candida albicans / Identification and characterization of a metallo-aminopeptidase from Candida albicans (CaApe2)

Pönisch, Roman

09 February 2009

Die Hefe Candida albicans ist ein fakultativ humanpathogener Mikroorganismus, der insbesondere bei immungeschwächten Patienten schwere Erkrankungen der Haut und Schleimhäute sowie der inneren Organe hervorrufen kann. Seit langer Zeit wird eine Beteiligung des Hefepilzes an der Ätiopathogenese der Zahnkaries diskutiert, vor allem aufgrund der Säure-bildung, die zur Demineralisation der Zahnhartsubstanz beitragen kann. Hydrolytische Enzyme ermöglichen vermutlich die Gewebeinvasion von Candida albicans. In der vorliegenden Arbeit wurde ein sezerniertes peptidolytisches Enzym aus der Zellwand des Mikroorganismus isoliert, identifiziert und funktionell charakterisiert. Die mittels massenspektrometrischer Analyse der tryptischen Peptide und Datenbankrecherche ermittelte Primärstruktur und die Ergebnisse der funktionellen Charakterisierung ließen eine Identifi-zierung des peptidolytischen Enzyms als neutrale Arginin/Alanin/Leucin-spaltende Metallo-Aminopeptidase (CaApe2) zu, die durch den ORF CaO19.5197 (GenBank RefSeq XM 705313) kodiert wird. Mithilfe der Proteinanalytik wurde Serin-88 als N-terminale Aminosäure ermittelt. Die Aminosäuren 88 bis 954 des hypothetischen Genprodukts ergeben eine nominale Molekularmasse von 97,607 kDa. CaApe2 weist gleich hohe Ähnlichkeit mit den paralogen Genprodukten ScAap1 und ScApe2 auf, was eine Duplikation und Subfunktionalisierung des phylogenetischen Vorläufergens in Saccharomyces cerevisiae nahe legt. Die fehlende kollagenolytische Wirksamkeit von CaApe2 spricht gegen eine direkte Rolle des Enzyms in der Pathogenese der Dentinkaries von Candida albicans, schließt aber eine unterstützende Funktion nicht aus. Die Kollagendegradation durch aufgeschlossene Zellen und Kulturüberstand einer Flüssigkultur von Candida albicans wurde im sauren und neutralen Milieu mithilfe der Hydroxyprolin-Bestimmung untersucht. Dabei war keine Kollagenolyse mit Aktivitätsmaximum im neutralen Bereich nachweisbar. Im sauren pH-Bereich konnte eine deutliche Hydrolyse von säureunlöslichem Typ-I-Kollagen und auch von demineralisierter Dentinmatrix durch Kulturmedium gezeigt werden. Diese Kollagenolyse kann auf die bereits umfangreich charakterisierten sezernierten Aspartylproteinasen zurückgeführt werden. Die in der Literatur beschriebene Korrelation zwischen dem Ausmaß des Kariesbefalls und der Quantität der Besiedelung mit Candida albicans legt eine Beteiligung des Hefepilzes an der Kariogenese nahe. Auch die in der vorliegenden Arbeit gezeigte Fähigkeit von Candida albicans zur Dentinkollagendegradation unterstützt die Hypothese einer Kariogenität der Hefe. / The proteolytic potential of the pathogenic fungus Candida albicans was evaluated by the identification and functional characterization of a peptidolytic enzyme isolated from the cell wall of the microorganism. Determination of basic structural and kinetic data identified a neutral arginine/alanine/leucine-specific metallo-aminopeptidase of unknown function termed CaApe2 which is encoded by ORF CaO19.5197 (GenBank RefSeq XM_705313). Mass spectrometric tryptic peptide analysis and N-terminal protein sequencing revealed serine-88 to represent the N-terminus of CaApe2. The isolated CaApe2 protein shares equally high similarity with the gene products ScAap1 and ScApe2 suggesting duplication of a phylogenetically ancient precursor gene in Saccharomyces cerevisiae. The observed failure to cleave human type-I and type-IV collagen in vitro challenges a direct role secreted CaApe2 might play in the degradation of extracellular matrix components during host colonization, but does not exclude per se a contribution of the aminopeptidase to the pathogenicity of C. albicans.

Aminopeptidase

CaApe2

Candida albicans

Enzymreinigung

Sezernierte Aspartylproteinase

SAP

Kollagendegradation

Kollagenhydrolyse

Dentinkaries

Aminopeptidase

CaApe2

Candida albicans

gene structure

purification

hydrolysis of collagen

secreted aspartylproteinases

SAP

caries

dentin

ddc:610

rvk:YP 3304

Evolution and function of cellulase genes in Australian freshwater crayfish

Crawford, Allison Clare

January 2006

The most abundant organic compound produced by plants is cellulose, however it has long been accepted that animals do not secrete the hydrolytic enzymes required for its degradation, but rely instead on cellulases produced by symbiotic microbes. The recent discovery of an endogenous cDNA transcript encoding a putative GHF9 endoglucanase in the parastacid crayfish Cherax quadricarinatus (Byrne et al., 1999) suggests that similar cellulase genes may have been inherited by a range of crustacean taxa. In this study, the evolutionary history of the C. quadricarinatus endoglucanase gene and the presence of additional GHF9 genes in other decapod species were investigated. The activity of endoglucanase and endoxylanase enzymes within several cultured decapod species were also compared. The evolutionary history of the C. quadricarinatus endoglucanase gene was assessed by comparing intron/exon structure with that of other invertebrate and plant GHF9 genes. The coding region of the gene was found to be interrupted by eleven introns ranging in size from 102-902 bp, the position of which was largely conserved in both termite and abalone GHF9 genes. These structural similarities suggest GHF9 genes in crustaceans and other invertebrate taxa share a common ancestry. In addition, two introns were observed to share similar positions in plant GHF9 genes, which indicates this enzyme class may have been present in ancient eukaryote organisms. The presence of GHF9 genes in C. quadricarinatus and various other decapod species was then explored via degenerate primer PCR. Two distinct GHF9 gene fragments were determined for C. quadricarinatus and several other Cherax and Euastacus parastacid freshwater crayfish species, and a single GHF9 gene fragment was also determined for the palaemonid freshwater prawn Macrobrachium lar. Phylogenetic analyses of these fragments confirmed the presence of two endoglucanase genes within the Parastacidae, termed EG-1 and EG-2. The duplication event that produced these two genes appears to have occurred prior to the evolution of freshwater crayfish. In addition, EG-2 genes appear to have duplicated more recently within the Cherax lineage. The presence of multiple GHF9 endoglucanase enzymes within the digestive tract of some decapod species may enable more efficient processing of cellulose substrates present in dietary plant material. Endoglucanase and endoxylanase enzyme activities were compared in several parastacid crayfish and penaeid prawn species using dye-linked substrates. Endoglucanase activity levels were higher in crayfish compared with prawn species, which corresponds with the known dietary preferences of these taxa. Endoglucanase temperature and pH profiles were found to be very similar for all species examined, with optimum activity occurring at 60°C and pH 5.0. These results suggest endoglucanase activity in penaeid prawns may also be derived from endogenous sources. Additional in vitro studies further demonstrated crayfish and prawn species liberate comparable amounts of glucose from carboxymethyl-cellulose, which indicates both taxa may utilise cellulose substrates as a source of energy. Endoxylanase temperature and pH profiles were also similar for all crayfish species examined, with optimal activity occurring at 50°C and pH 5.0. These results suggest xylanase activity in crayfish may originate from endogenous enzymes, although it is unclear whether this activity is derived from GHF9 enzymes or a different xylanase enzyme class. In contrast, no endoxylanase activity was detected in the three prawn species examined. Together, these findings suggest a wide range of decapod crustacean species may possess endogenous GHF9 endoglucanase genes and enzymes. Endoglucanases may be secreted by various decapod species in order to digest soluble or amorphous cellulose substrates present in consumed plant material. Further biochemical studies may confirm the presence and functional attributes of additional endoglucanase genes and enzymes in decapods, which may ultimately assist in the design of optimal plant based crustacean aquaculture feeds.

aquaculture

aquafeed

cellulase

cellulose digestion

cherax

crayfish

crustacean nutrition

decapoda

duplication

endoglucanase

euastacus

eukaryote

evolution

gene structure

GHF9

glucose

intron position

macrobrachium

multigene family

NSP

palaemonidae

parastacidae

penaeus

phylogeny

plant material

protein evolution

structural polysaccharide

xylanase

Isolierung, Identifizierung und funktionelle Charakterisierung der Metallo-Aminopeptidase CaApe2 — Ein experimenteller Beitrag zur Beurteilung des kariogenen Potentials von Candida albicans

Pönisch, Roman

09 December 2008

Die Hefe Candida albicans ist ein fakultativ humanpathogener Mikroorganismus, der insbesondere bei immungeschwächten Patienten schwere Erkrankungen der Haut und Schleimhäute sowie der inneren Organe hervorrufen kann. Seit langer Zeit wird eine Beteiligung des Hefepilzes an der Ätiopathogenese der Zahnkaries diskutiert, vor allem aufgrund der Säure-bildung, die zur Demineralisation der Zahnhartsubstanz beitragen kann. Hydrolytische Enzyme ermöglichen vermutlich die Gewebeinvasion von Candida albicans. In der vorliegenden Arbeit wurde ein sezerniertes peptidolytisches Enzym aus der Zellwand des Mikroorganismus isoliert, identifiziert und funktionell charakterisiert. Die mittels massenspektrometrischer Analyse der tryptischen Peptide und Datenbankrecherche ermittelte Primärstruktur und die Ergebnisse der funktionellen Charakterisierung ließen eine Identifi-zierung des peptidolytischen Enzyms als neutrale Arginin/Alanin/Leucin-spaltende Metallo-Aminopeptidase (CaApe2) zu, die durch den ORF CaO19.5197 (GenBank RefSeq XM 705313) kodiert wird. Mithilfe der Proteinanalytik wurde Serin-88 als N-terminale Aminosäure ermittelt. Die Aminosäuren 88 bis 954 des hypothetischen Genprodukts ergeben eine nominale Molekularmasse von 97,607 kDa. CaApe2 weist gleich hohe Ähnlichkeit mit den paralogen Genprodukten ScAap1 und ScApe2 auf, was eine Duplikation und Subfunktionalisierung des phylogenetischen Vorläufergens in Saccharomyces cerevisiae nahe legt. Die fehlende kollagenolytische Wirksamkeit von CaApe2 spricht gegen eine direkte Rolle des Enzyms in der Pathogenese der Dentinkaries von Candida albicans, schließt aber eine unterstützende Funktion nicht aus. Die Kollagendegradation durch aufgeschlossene Zellen und Kulturüberstand einer Flüssigkultur von Candida albicans wurde im sauren und neutralen Milieu mithilfe der Hydroxyprolin-Bestimmung untersucht. Dabei war keine Kollagenolyse mit Aktivitätsmaximum im neutralen Bereich nachweisbar. Im sauren pH-Bereich konnte eine deutliche Hydrolyse von säureunlöslichem Typ-I-Kollagen und auch von demineralisierter Dentinmatrix durch Kulturmedium gezeigt werden. Diese Kollagenolyse kann auf die bereits umfangreich charakterisierten sezernierten Aspartylproteinasen zurückgeführt werden. Die in der Literatur beschriebene Korrelation zwischen dem Ausmaß des Kariesbefalls und der Quantität der Besiedelung mit Candida albicans legt eine Beteiligung des Hefepilzes an der Kariogenese nahe. Auch die in der vorliegenden Arbeit gezeigte Fähigkeit von Candida albicans zur Dentinkollagendegradation unterstützt die Hypothese einer Kariogenität der Hefe. / The proteolytic potential of the pathogenic fungus Candida albicans was evaluated by the identification and functional characterization of a peptidolytic enzyme isolated from the cell wall of the microorganism. Determination of basic structural and kinetic data identified a neutral arginine/alanine/leucine-specific metallo-aminopeptidase of unknown function termed CaApe2 which is encoded by ORF CaO19.5197 (GenBank RefSeq XM_705313). Mass spectrometric tryptic peptide analysis and N-terminal protein sequencing revealed serine-88 to represent the N-terminus of CaApe2. The isolated CaApe2 protein shares equally high similarity with the gene products ScAap1 and ScApe2 suggesting duplication of a phylogenetically ancient precursor gene in Saccharomyces cerevisiae. The observed failure to cleave human type-I and type-IV collagen in vitro challenges a direct role secreted CaApe2 might play in the degradation of extracellular matrix components during host colonization, but does not exclude per se a contribution of the aminopeptidase to the pathogenicity of C. albicans.

info:eu-repo/classification/ddc/610

ddc:610

Comparative analysis of eukaryotic gene sequence features

Abril Ferrando, Josep Francesc

17 May 2005

L'incessant augment del nombre de seqüències genòmiques, juntament amb l'increment del nombre de tècniques experimentals de les que es disposa, permetrà obtenir el catàleg complet de les funcions cel.lulars de diferents organismes, incloent-hi la nostra espècie. Aquest catàleg definirà els fonaments sobre els que es podrà entendre millor com els organismes funcionen a nivell molecular. Al mateix temps es tindran més pistes sobre els canvis que estan associats amb les malalties. Per tant, la seqüència en brut, tal i com s'obté dels projectes de seqüenciació de genomes, no té cap valor sense les anàlisis i la subsegüent anotació de les característiques que defineixen aquestes funcions. Aquesta tesi presenta la nostra contribució en tres aspectes relacionats de l'anotació dels gens en genomes eucariotes. Primer, la comparació a nivell de seqüència entre els genomes humà i de ratolí es va dur a terme mitjançant un protocol semi-automàtic. El programa de predicció de gens SGP2 es va desenvolupar a partir d'elements d'aquest protocol. El concepte al darrera de l'SGP2 és que les regions de similaritat obtingudes amb el programa TBLASTX, es fan servir per augmentar la puntuació dels exons predits pel programa geneid, amb el que s obtenen conjunts d'anotacions més acurats d'estructures gèniques. SGP2 té una especificitat que és prou gran com per que es puguin validar experimentalment via RT-PCR. La validació de llocs d'splicing emprant la tècnica de la RT-PCR és un bon exemple de com la combinació d'aproximacions computacionals i experimentals produeix millors resultats que per separat. S'ha dut a terme l'anàlisi descriptiva a nivell de seqüència dels llocs d'splicing obtinguts sobre un conjunt fiable de gens ortòlegs per humà, ratolí, rata i pollastre. S'han explorat les diferències a nivell de nucleòtid entre llocs U2 i U12, pel conjunt d'introns ortòlegs que se'n deriva d'aquests gens. S'ha trobat que els senyals d'splicing ortòlegs entre humà i rossegadors, així com entre rossegadors, estan més conservats que els llocs no relacionats. Aquesta conservació addicional pot ser explicada però a nivell de conservació basal dels introns. D'altra banda, s'ha detectat més conservació de l'esperada entre llocs d'splicing ortòlegs entre mamífers i pollastre. Els resultats obtinguts també indiquen que les classes intròniques U2 i U12 han evolucionat independentment des de l'ancestre comú dels mamífers i les aus. Tampoc s'ha trobat cap cas convincent d'interconversió entre aquestes dues classes en el conjunt d'introns ortòlegs generat, ni cap cas de substitució entre els subtipus AT-AC i GT-AG d'introns U12. Al contrari, el pas de GT-AG a GC-AG, i viceversa, en introns U2 no sembla ser inusual. Finalment, s'han implementat una sèrie d'eines de visualització per integrar anotacions obtingudes pels programes de predicció de gens i per les anàlisis comparatives sobre genomes. Una d'aquestes eines, el gff2ps, s'ha emprat en la cartografia dels genomes humà, de la mosca del vinagre i del mosquit de la malària, entre d'altres. El programa gff2aplot i els filtres associats, han facilitat la tasca d'integrar anotacions de seqüència amb els resultats d'eines per la cerca d'homologia, com ara el BLAST. S'ha adaptat també el concepte de pictograma a l'anàlisi comparativa de llocs d splicing ortòlegs, amb el desenvolupament del programa compi. / El aumento incesante del número de secuencias genómicas, junto con el incremento del número de técnicas experimentales de las que se dispone, permitirá la obtención del catálogo completo de las funciones celulares de los diferentes organismos, incluida nuestra especie. Este catálogo definirá las bases sobre las que se pueda entender mejor el funcionamiento de los organismos a nivel molecular. Al mismo tiempo, se obtendrán más pistas sobre los cambios asociados a enfermedades. Por tanto, la secuencia en bruto, tal y como se obtiene en los proyectos de secuenciación masiva, no tiene ningún valor sin los análisis y la posterior anotación de las características que definen estas funciones. Esta tesis presenta nuestra contribución a tres aspectos relacionados de la anotación de los genes en genomas eucariotas. Primero, la comparación a nivel de secuencia entre el genoma humano y el de ratón se llevó a cabo mediante un protocolo semi-automático. El programa de predicción de genes SGP2 se desarrolló a partir de elementos de dicho protocolo. El concepto sobre el que se fundamenta el SGP2 es que las regiones de similaridad obtenidas con el programa TBLASTX, se utilizan para aumentar la puntuación de los exones predichos por el programa geneid, con lo que se obtienen conjuntos más precisos de anotaciones de estructuras génicas. SGP2 tiene una especificidad suficiente como para validar esas anotaciones experimentalmente vía RT-PCR. La validación de los sitios de splicing mediante el uso de la técnica de la RT-PCR es un buen ejemplo de cómo la combinación de aproximaciones computacionales y experimentales produce mejores resultados que por separado. Se ha llevado a cabo el análisis descriptivo a nivel de secuencia de los sitios de splicing obtenidos sobre un conjunto fiable de genes ortólogos para humano, ratón, rata y pollo. Se han explorado las diferencias a nivel de nucleótido entre sitios U2 y U12 para el conjunto de intrones ortólogos derivado de esos genes. Se ha visto que las señales de splicing ortólogas entre humanos y roedores, así como entre roedores, están más conservadas que las no ortólogas. Esta conservación puede ser explicada en parte a nivel de conservación basal de los intrones. Por otro lado, se ha detectado mayor conservación de la esperada entre sitios de splicing ortólogos entre mamíferos y pollo. Los resultados obtenidos indican también que las clases intrónicas U2 y U12 han evolucionado independientemente desde el ancestro común de mamíferos y aves. Tampoco se ha hallado ningún caso convincente de interconversión entre estas dos clases en el conjunto de intrones ortólogos generado, ni ningún caso de substitución entre los subtipos AT-AC y GT-AG en intrones U12. Por el contrario, el paso de GT-AG a GC-AG, y viceversa, en intrones U2 no parece ser inusual. Finalmente, se han implementado una serie de herramientas de visualización para integrar anotaciones obtenidas por los programas de predicción de genes y por los análisis comparativos sobre genomas. Una de estas herramientas, gff2ps, se ha utilizado para cartografiar los genomas humano, de la mosca del vinagre y del mosquito de la malaria. El programa gff2aplot y los filtros asociados, han facilitado la tarea de integrar anotaciones a nivel de secuencia con los resultados obtenidos por herramientas de búsqueda de homología, como BLAST. Se ha adaptado también el concepto de pictograma al análisis comparativo de los sitios de splicing ortólogos, con el desarrollo del programa compi. / The constantly increasing amount of available genome sequences, along with an increasing number of experimental techniques, will help to produce the complete catalog of cellular functions for different organisms, including humans. Such a catalog will define the base from which we will better understand how organisms work at the molecular level. At the same time it will shed light on which changes are associated with disease. Therefore, the raw sequence from genome sequencing projects is worthless without the complete analysis and further annotation of the genomic features that define those functions. This dissertation presents our contribution to three related aspects of gene annotation on eukaryotic genomes. First, a comparison at sequence level of human and mouse genomes was performed by developing a semi-automatic analysis pipeline. The SGP2 gene-finding tool was developed from procedures used in this pipeline. The concept behind SGP2 is that similarity regions obtained by TBLASTX are used to increase the score of exons predicted by geneid, in order to produce a more accurate set of gene structures. SGP2 provides a specificity that is high enough for its predictions to be experimentally verified by RT-PCR. The RT-PCR validation of predicted splice junctions also serves as example of how combined computational and experimental approaches will yield the best results. Then, we performed a descriptive analysis at sequence level of the splice site signals from a reliable set of orthologous genes for human, mouse, rat and chicken. We have explored the differences at nucleotide sequence level between U2 and U12 for the set of orthologous introns derived from those genes. We found that orthologous splice signals between human and rodents and within rodents are more conserved than unrelated splice sites. However, additional conservation can be explained mostly by background intron conservation. Additional conservation over background is detectable in orthologous mammalian and chicken splice sites. Our results also indicate that the U2 and U12 intron classes have evolved independently since the split of mammals and birds. We found neither convincing case of interconversion between these two classes in our sets of orthologous introns, nor any single case of switching between AT-AC and GT-AG subtypes within U12 introns. In contrast, switching between GT-AG and GC-AG U2 subtypes does not appear to be unusual. Finally, we implemented visualization tools to integrate annotation features for gene- finding and comparative analyses. One of those tools, gff2ps, was used to draw the whole genome maps for human, fruitfly and mosquito. gff2aplot and the accompanying parsers facilitate the task of integrating sequence annotations with the output of homologybased tools, like BLAST.We have also adapted the concept of pictograms to the comparative analysis of orthologous splice sites, by developing compi.

amino acid sequences

eukaryotic cells

cèl·lules

seqüències dels aminoàcids

genòmica

chicken

gallus gallus

rattus norvegicus

rat

mus musculus

mouse

gene prediction RT-PCR validation

SGP2

evaluation

geneid

comparative computational gene finding

anopheles gambiae

genome map

drosophila melanogaster

fruitfly

mosquito

human

compi

gff2aplot

gff2ps

feature visualization

U12

genome annotation

U2

splice sites

exonic gene structure

genomics

bioinformatics

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