EF-saken og Bortenregjeringens fall, 1965–71

Aarvelta, Amund

January 2013

No description available.

Borten

EF

regjeringen

1965

Estudo da Ligação de Cátions Divalentes em Sítios EF-hand Utilizando a Cadeia Leve Regulatória de Miosina de Músculo Liso / Study of divalent cations binding to EF-hand sites using smooth muscle myosin regulatory light chain

Almeida, Tharin Maria Blumenschein de

24 March 2000

O objetivo deste trabalho é estudar a afinidade e especificidade de sítios EF-hand, e correlacionar estas propriedades com a estrutura primária do sítio, com as interações entre aminoácidos nas posições de coordenação, e com prováveis características da estrutura terciária da proteína. Os efeitos de três mutações no sítio EF-hand da cadeia leve regulatória de miosina (RLC) foram estudados: D5S, em que o aspartato presente na posição 5 do sítio foi substituído por uma serina; D9E, substituindo o aspartato da posição 9 por um glutamato, e D12E, substituindo o aspartato da posição 12 por um glutamato. Todas as combinações destas três mutações foram produzidas. Os mutantes simples D5S e D9E e o duplo mutante D5S/D9E têm baixa afinidade por cálcio. Todos os mutantes contendo a mutação D12E são específicos para cálcio, com afinidades maiores que RLC tipo selvagem. Todos os mutantes estudados possuem menor afinidade por magnésio que RLC tipo selvagem. As mudanças na energia livre de ligação e as energias de acoplamento sugerem que há interações inespecíficas entre todas as posições, e uma interação específica entre uma serina na posição 5 e um glutamato na posição 9. Esta interação ocorre somente na presença de magnésio, e quando há um aspartato na posição 12. O glutamato na posição 9 pode ser capaz de coordenar a ligação de magnésio diretamente no duplo mutante D5S/D9E. Embora um aminoácido ou um certo arranjo deles possa determinar características específicas do sítio EF-hand, o conjunto de propriedades depende da estrutura terciária, uma vez que sítios homólogos podem possuir afinidades e especificidades bastante diferentes. / The aim of this thesis was to study affinity and specificity in EF-hand sites, and how these properties are related to the site primary structure, interactions between amino acids in coordinating positions, and probable tertiary structure properties. The effects of three mutations on the EF-hand Ca2+/Mg2+ binding site of smooth muscle myosin regulatory light chain (RLC) were studied: D5S, in which an aspartate is replaced by a serine in position 5 of the loop; D9E, in which an aspartate is replaced by a glutamate in position 9, and D12E, in which the aspartate in position 12 is replaced by a glutamate. All possible combinations of the three mutations were produced. The single mutants D5S and D9E and the double mutant D5S/D9E have low affinity for Ca2+. All the mutants containing mutation D12E are Ca2+-specific and have higher affinities than wild type, even when containing mutations D5S or D9E. All the mutants studied have lower affinity for Mg2+ than wild type RLC. Coupling energies and changes in binding free energy suggest that all positions interact in a non-specific way, and a specific interaction occurs between a serine in position 5 and a glutamate in position 9. This interaction can be seen only in the presence of magnesium, and with an apartate in position 12. Glutamate in position 9 may be able to coordinate Mg2+ directly in the double mutant D5S/D9E. Even though an amino acid or a few amino acids in certain positions can determine specific characteristics for an EF-hand site, the site properties depend on the tertiary structure, since homologue sites can have very different affinities and specificities.

aminoacid

aminoácidos

EF-hand sites

miosina

myosin

sítios EF-hand

Estudo da Ligação de Cátions Divalentes em Sítios EF-hand Utilizando a Cadeia Leve Regulatória de Miosina de Músculo Liso / Study of divalent cations binding to EF-hand sites using smooth muscle myosin regulatory light chain

Tharin Maria Blumenschein de Almeida

24 March 2000

O objetivo deste trabalho é estudar a afinidade e especificidade de sítios EF-hand, e correlacionar estas propriedades com a estrutura primária do sítio, com as interações entre aminoácidos nas posições de coordenação, e com prováveis características da estrutura terciária da proteína. Os efeitos de três mutações no sítio EF-hand da cadeia leve regulatória de miosina (RLC) foram estudados: D5S, em que o aspartato presente na posição 5 do sítio foi substituído por uma serina; D9E, substituindo o aspartato da posição 9 por um glutamato, e D12E, substituindo o aspartato da posição 12 por um glutamato. Todas as combinações destas três mutações foram produzidas. Os mutantes simples D5S e D9E e o duplo mutante D5S/D9E têm baixa afinidade por cálcio. Todos os mutantes contendo a mutação D12E são específicos para cálcio, com afinidades maiores que RLC tipo selvagem. Todos os mutantes estudados possuem menor afinidade por magnésio que RLC tipo selvagem. As mudanças na energia livre de ligação e as energias de acoplamento sugerem que há interações inespecíficas entre todas as posições, e uma interação específica entre uma serina na posição 5 e um glutamato na posição 9. Esta interação ocorre somente na presença de magnésio, e quando há um aspartato na posição 12. O glutamato na posição 9 pode ser capaz de coordenar a ligação de magnésio diretamente no duplo mutante D5S/D9E. Embora um aminoácido ou um certo arranjo deles possa determinar características específicas do sítio EF-hand, o conjunto de propriedades depende da estrutura terciária, uma vez que sítios homólogos podem possuir afinidades e especificidades bastante diferentes. / The aim of this thesis was to study affinity and specificity in EF-hand sites, and how these properties are related to the site primary structure, interactions between amino acids in coordinating positions, and probable tertiary structure properties. The effects of three mutations on the EF-hand Ca2+/Mg2+ binding site of smooth muscle myosin regulatory light chain (RLC) were studied: D5S, in which an aspartate is replaced by a serine in position 5 of the loop; D9E, in which an aspartate is replaced by a glutamate in position 9, and D12E, in which the aspartate in position 12 is replaced by a glutamate. All possible combinations of the three mutations were produced. The single mutants D5S and D9E and the double mutant D5S/D9E have low affinity for Ca2+. All the mutants containing mutation D12E are Ca2+-specific and have higher affinities than wild type, even when containing mutations D5S or D9E. All the mutants studied have lower affinity for Mg2+ than wild type RLC. Coupling energies and changes in binding free energy suggest that all positions interact in a non-specific way, and a specific interaction occurs between a serine in position 5 and a glutamate in position 9. This interaction can be seen only in the presence of magnesium, and with an apartate in position 12. Glutamate in position 9 may be able to coordinate Mg2+ directly in the double mutant D5S/D9E. Even though an amino acid or a few amino acids in certain positions can determine specific characteristics for an EF-hand site, the site properties depend on the tertiary structure, since homologue sites can have very different affinities and specificities.

aminoácidos

miosina

sítios EF-hand

aminoacid

EF-hand sites

myosin

Elongation factor EF-P and its role in environmental stress adaptation

Σταυροπούλου, Μαρία

17 September 2012

Bacterial elongation factor P (EF-P) is a poorly understood soluble protein that has been shown to enhance the first step of peptide bond formation through an interaction with the ribosome and initiator tRNA. The crystal structure of EF‐P shows that EF‐P mimics the tRNA shape. Orthologous proteins have been found in both archaeal and eukaryotic systems, known as aIF5A and eIF5A, respectively. eIF5A, which was recently shown to increase translation elongation rates, is post-translationally modified at a highly conserved lysine residue (K50) through the addition of the rare amino acid hypusine. A similar pathway was recently elucidated for EF-P, in which EF-P is post-translationally modified by the enzymes YjeA and YjeK at lysine 34, corresponding to a homologous site of hypusylation in a/eIF5A. As a paralog of class II LysRS, YjeA catalyzes the addition of lysine onto EF-P, but is incapable of modifying tRNA. YjeK is a 2,3-(β)-lysine aminomutase and is responsible for converting lysine to β-lysine, which YjeA was recently shown to recognize as a preferred substrate for EF-P modification. However, fully modified EF-P requires a third enzyme, YfcM, which acts as a hydroxylase and hydroxylates the C4 or C5 position of K34 of EF-P, but not the added β-lysine. Based on a complete description of the EF-P modification and pathway, in this project we focused on further studies to address the mechanism of action of EF-P and especially to investigate how the different stages of EF-P’s modifications can affect E. coli cells. Using E. coli Keio knockout collection (Δefp, ΔyjeK, ΔyjeA, ΔyfcM) and E. coli Keio parental strain (wild-type) as reference, we checked the effect of the deletion strains on the cells under different environmental stress conditions (varying growth temperatures and nutrition conditions, susceptibility to antibiotics), showing that Δefp strain has growth defects and that E. coli efp mutants show sensitivity to non-ribosomal inhibitors, such as ampicillin and rifampicin, suggesting a possible secondary role of EF-P related to the cell envelope. Moreover, we tested the ability of deletion strains to restore viability in the presence of the appropriate plasmid and showed that EF-P is important for cell viability under certain conditions in E. coli. As reported previously, YjeA and YjeK are important in bacteria virulence. In addition, EF‐P is recognized as one of the proteins important for bacteria motility in Bacillus subtilis. However, motility and virulence are often linked together. Here, we tested deletion strains for their ability to produce flagella. Further, using external fluorescence staining and confocal microscopy we revealed differences in morphology of the E. coli deletion strains, and we performed Histidine tag protein purification with Ni-NTA agarose beads and gel filtration, in order to purify YfcM, an uncharacterized protein, and set initial screens for crystallization. Finally, our future goal is to clone the following polycistronic construct, “- yjeK - yjeA - yfcM - his-efp -“, overexpress and crystallize it, so as to see the crystal structure of the whole modification pathway of EF-P and study better the function of EF-P in translation extracts from different mutants / Ο βακτηριακός παράγοντας επιμήκυνσης EF-P, είναι μια διαλυτή πρωτεΐνη που βοηθά στο σχηματισμό του πρώτου πεπτιδικού δεσμού, αλληλεπιδρώντας με το ριβόσωμα και το εναρκτήριο tRNA. Η κρυσταλλική δομή του EF-P δείχνει ότι μιμείται στη μορφή το tRNA. Ορθόλογες πρωτεΐνες έχουν βρεθεί και στα αρχαία και τα ευκαρυωτικά κύτταρα, γνωστές ως aIF5A και eIF5A, αντίστοιχα. Ο eIF5A, για τον οποίο αποδείχθηκε πρόσφατα ότι συμμετέχει και στο στάδιο της επιμήκυνσης της μετάφρασης, υφίσταται μια μοναδική μετα-μεταφραστική τροποποίηση στη λυσίνη 50 (Κ50), μέσω της προσθήκης σε αυτή ενός σπάνιου αμινοξέος, της υπουσίνης (hypusine). Μια παρόμοια τροποποίηση αποδείχθηκε ότι υφίσταται ωστόσο και ο EF-P της Escherichia coli (E. coli), ο οποίος τροποποιείται μετα-μεταφραστικά στη λυσίνη 34 (Κ34) με τη βοήθεια των ενζύμων YjeA και YjeK. Το YjeA αποτελεί παράλογο της δεύτερης κλάσης των tRNA συνθετασών της λυσίνης (LysRSs: Lysyl-tRNA synthetases), και καταλύει την προσθήκη της λυσίνης επάνω στον EF-P. Το YjeK είναι μια 2,3 αμινομουτάση της λυσινης (LAM: Lysine-2-3-aminomutase) και είναι αρμόδια για τη μετατροπή της α-λυσίνης σε β-λυσίνη. Εντούτοις, πρόσφατες έρευνες έδειξαν ότι ο πλήρως τροποποιημένος EF-P απαιτεί ένα επιπλέον ένζυμο, το YfcM, το οποίο ενεργεί ως υδροξυλάση και υδροξυλιώνει τον C4 ή C5 άνθρακα της K34 του EF-P. Στη συγκεκριμένη μελέτη εστιάσαμε στην εξέταση του μηχανισμού δράσης του EF-P και ειδικότερα στις επιπτώσεις που μπορεί να έχουν τα διαφορετικά στάδια των τροποποιήσεών του σε κύτταρα E. coli. Χρησιμοποιώντας τα knockout E. coli στελέχη της Keio (Δefp, ΔyjeK, ΔyjeA, ΔyfcM), ελέγξαμε την επίδραση διαφόρων περιβαλλοντικών συνθηκών στα στελέχη (διαφορετικές θερμοκρασίες, συνθήκες διατροφής, ευαισθησία σε αντιβιοτικά), δείχνοντας ότι το Δefp στέλεχος έχει μειωμένη αύξηση και ότι τα μεταλλαγμένα στελέχη παρουσιάζουν ευαισθησία σε μη-ριβοσωματικούς αναστολείς, όπως για παράδειγμα την αμπικιλίνη και τη ριφαμπικίνη. Επιπλέον, εξετάσαμε τη δυνατότητα των μεταλλαγμένων στελεχών να ανακάμπτουν στην ανάπτυξή τους παρουσία του κατάλληλου πλασμιδίου και είδαμε ότι ο EFP είναι σημαντικός για την in vivo ανάπτυξη της E. coli σε στρεσσογόνες καταστάσεις. Όπως αναφέρθηκε πρόσφατα, οι YjeA, YjeK και EF-P πρωτεΐνες συμβάλουν στη μείωσης της τοξικότητας στη Salmonella. Επιπλέον, έχει δειχθεί πως ο EF-P είναι μια από τις πρωτεΐνες, που παίζουν σημαντικό ρόλο στην κινητικότητα των βακτηρίων στο Bacillus subtilis. Ωστόσο, έρευνα των Josenhans και Suerbaum το 2002, έδειξε πως η κινιτηκότητα και η τοξικότητα συχνά συνδέονται μεταξύ τους. Έτσι εξετάσαμε, τα μεταλλαγμένα στελέχη για την ικανότητά τους να κινούνται, δημιουργώντας μαστίγια, σε semi-solid θρεπτικό υλικό. Περαιτέρω έρευνες χρησιμοποιώντας external fluorescence staining και confocal microscopy, αποκαλύψε διαφορές στη μορφολογία των μεταλλαγμένων στελεχών της E. coli. Επίσης, με στόχο τη μελέτη της πρωτεΐνης YfcM, η λειτουργία της οποίας δεν είναι ακόμη γνωστή, απομονώσαμε και καθαρίσαμε την YfcM, με Νi-NTA agarose beads και gel filtration για τη μελλοντική κρυσταλοποίησή της,. Τέλος, μελλοντικός στόχος μας είναι η κλωνοποίηση του ακόλουθου πολυκιστρονικού γονιδίου “- yjeK - yjeA - yfcM - Ηis-efp - “, με σκοπό την υπερέκφραση και την κρυσταλλοποίησή του, ώστε να λάβουμε μια εικόνα του πως μοιάζει ολοκληρωμένο το μονοπάτι της τροποποίησης του EF-P, και επιπλέον, να μελετήσουμε καλύτερα τη λειτουργία του EF-P σε εκχυλίσματα της μετάφρασης από διαφορετικές μεταλλάξεις..

Elongation factor EF-P

YjeA

YjeK

EF-P

YfcM

572.884 5

Defining a Molecular Mechanism for Lead Toxicity via Calcium-Binding Proteins

Kirberger, Michael

07 May 2011

Essential metals like Ca2+ and Zn2+ play critical roles in biological processes through protein interactions. Conversely, non-essential metals (e.g., Gd3+ and Pb2+) also interact with proteins, often with toxic effects. Molecular metal toxicity is assumed to be due to ionic displacement, and studies have demonstrated that Pb2+ replaces Zn2+, Ca2+ and other essential metals in proteins. The focus of this work was to compare protein Ca2+ and Pb2+ -binding sites and to investigate a mechanism of Pb2+ toxicity in Ca2+-binding proteins, particularly the intracellular trigger protein calmodulin (CaM) which binds four Ca2+ ions and interacts with numerous molecular targets via Ca2+-induced conformational change. A statistical analysis of PDB structural data for Pb2+ and Ca2+-binding (EF-hand and non-EF-hand) proteins revealed fewer binding ligands in Pb2+ sites (4 ± 2), than non-EF-Hand (6 ± 2) and EF-Hand (7 ± 1) Ca2+-binding sites. Pb2+ binds predominantly with sidechain Glu (38.4%), which is less prevalent in both non-EF-Hand (10.4%) and EF-Hand (26.6%) sites. Interestingly, analyses of proteins where Pb2+ replaces Ca2+ (calmodulin) or Zn2+ (5-aminolaevulinic acid dehydratase) revealed structural changes presumably unrelated to ionic displacement. These results suggested that Pb2+ adopts diverse binding geometries and that opportunistic binding outside of known Ca2+-binding sites may play a role in molecular metal toxicity. Ca2+-binding affinities (Kd) using phenylalanine and tyrosine fluorescence were found to be 1.15 ± 0.68 X 10-5 M and 2.04 ± 0.02 X 10-6 M for the N- and C-terminal domains, respectively. The Kd for Pb2+-binding in the N-terminal domain, 1.40 ± 0.30 X 10-6 M, was 8-fold higher than Ca2+. Binding of Pb2+ in the C-terminal domain produced a biphasic response with Kd values 7.34 ± 0.95 X 10-7 M and 1.93 ± 0.32 X 10-6 M, suggesting a single higher affinity Pb2+-binding site in the C-terminal domain with nearly equivalent affinity for the remaining sites. Competitive effects of Pb2+ added to Ca2+-loaded CaM were examined using multiple NMR techniques. Pb2+ was found to displace Ca2+ only in the N-terminal domain, however structural/dynamic changes were observed in the central helix apparently due to Pb2+-binding in secondary sites. These data supported our hypothesis that CaM structure and function is altered by opportunistic Pb2+-binding.

Calcium

Lead

EF-Hand

Calmodulin

Toxicity

Chemistry

The Role of Translation Elongation in Cellular Adaptation

Tollerson, Rodney W., II

January 2019

No description available.

Microbiology

Adaptation

translation elongation

EF-P

Nascent Peptides That Induce Translational Arrest

Woolstenhulme, Christopher J

01 March 2014

Although the ribosome is a very general catalyst, it cannot synthesize all protein sequences equally well. Certain proteins are capable of stalling the ribosome during their own synthesis. Stalling events are used by both prokaryotic and eukaryotic cells to regulate gene expression. Characterization of natural stalling peptides shows that only a few strategically placed amino acids are needed to inactivate the ribosome. These motifs share little sequence similarity suggesting that there are more stalling motifs yet to be discovered. Here we use two genetic selections in E. coli to discover novel stalling peptides and detail their subsequent characterization. Kinetic studies show that some of these nascent peptides dramatically inhibit rates of peptide release by release factors. We find that residues upstream of the minimal stalling motif can either enhance or suppress this effect. In other stalling motifs, such as polyproline sequences, peptidyl transfer to a subset of aminoacyl-tRNAs is inhibited. Translation factor EF-P alleviates pausing of the polyproline motifs, but has little or no effect on other stalling sequences. The EF-P ortholog eIF5A also alleviates pausing of polyproline sequences in yeast. Our studies show that short peptides sequences are capable of stalling the ribosome during elongation and termination through different mechanisms. These sequences are underrepresented in bacterial proteomes and show evidence of stalling on endogenous E. coli proteins.

ribosome

translation

stalling

EF-P

eIF5A

Chemistry

FUNCTIONAL ANALYSIS OF TWO CONSERVED REGIONS OF ESCHERICHIA COLI ELONGATION FACTOR G AS STUDIED BY SITE-DIRECTED MUTAGENESIS

Pereira, Ryan Apolinario

20 December 2002

No description available.

PROTEIN SYNTHESIS

EF-G

GTPase

translation

The life history of the American crow Corvus brachyrynchos Brehm

Good, Ernest Eugene

January 1952

No description available.

crow

Nest

Birds

roost

crew

ef

Flocks

Ecology and Taxonomy of Leptosphaerulina spp. Associated with Turfgrasses in the United States

Abler, Steven W.

02 April 2003

Leptosphaerulina spp. are common fungi that have been reported to colonize several turfgrass species. Controversy exists regarding the relationship of Leptosphaerulina spp. and their turfgrass hosts. The fungus has been classified as a saprophyte, senectophyte, weak pathogen, and pathogen of turfgrasses. There has also been conflicting reports regarding the delineation of species within the genus Leptosphaerulina. Because of the uncertainty regarding the ecology and taxonomy of the genus in relation to turfgrasses the present study was undertaken. The ITS and EF-1á gene regions were sequenced and analyzed to compare to the multiple taxonomic schemes reported in the literature. The ITS region offered no resolution of species; however, the phylogeny of the EF-1á gene was consistent with the six-species model of Graham and Luttrell. Inoculation experiments were performed on unstressed and artificially stressed plants to determine whether the fungi are pathogens, senectophytes, or saprophytes of turfgrasses. Perennial ryegrass and creeping bentgrass plants were stressed by placing them in a dew chamber set at 38ºC, 100% R.H., and no light for two and one days respectively. Plants were inoculated with cultures of Leptosphaerulina isolated from turfgrasses, and maintained at optimum conditions reported for infection and colonization. There was no visible difference between inoculated and uninoculated plants, and examination of cleared and stained leaves with a light microscope revealed spores that germinated and produced appressoria, but failed to penetrate the epidermal cells. The lack of infection and colonization suggests that Leptosphaerulina spp. are saprophytes of turfgrasses. / Master of Science

ITS

Leptosphaerulina

EF-1á

phylogenetics

morphology

turfgrass