Biotagging, a genetically encoded toolkit in the zebrafish, reveals novel non-coding RNA players during neural crest and myocardium development

Chong, Vanessa

January 2017

Complex multicellular organisms are composed of at least 200 cell types, which contain the same DNA "black box" of genetic information. It is the precise regime according to which they express their genes, exquisitely controlled by gene regulatory circuits, that defines their cellular identity, morphology and function. We have developed an in vivo biotinylation method that uses genetically encoded components in zebrafish, termed biotagging, for genome-wide regulatory analysis of defined embryonic cell populations. By labelling selected proteins in specific cell types, biotagging eliminates background inherent to analyses of complex embryonic environments via highly stringent biochemical procedures and targeting of specific interactions without the need for cell sorting. We utilised biotagging to characterise the in vivo translational landscape on polysomes as well as the transcriptional regulatory landscape in nuclei of migratory neural crest cells, which intermix with environing tissues during their migration. Our migratory neural crest translatome presented both known and novel players of the neural crest gene regulatory network. An in depth look into the active nuclear transcriptome uncovered a complex world of non-coding regulatory RNAs that potentially specify migratory neural crest identity and present evidence of active bidirectional transcription on regions of open chromatin that include putative cis-regulatory elements. Analysis of our transcribed cis-regulatory modules functionally links these elements to known genes that are key to migratory neural crest function and its derivatives. We also identified a novel cohort of circular RNAs enriched at regions of tandem duplicated genes. Last but not least, we recovered developmentally regulated long non-coding RNAs and transcribed transposable elements. To functionally dissect the biological roles of these factors, we have built two Ac/Ds-mediated in vivo toolkits for efficient screening of putative enhancers and for CRISPR/Cas9-based transcriptional modulation. Overall, our methods and findings present a comprehensive view of the active coding and non-coding landscapes of migratory neural crest on a genome-wide scale that refine the current regulatory architecture underlying neural crest identity.

Expression of Biotinylated Multivalent Peptide Antigens in Bacteria for Rapid and Effective Generation of Single Domain Antibodies from Phage-displayed Antibody Libraries

Alturki, Norah

January 2012

In the present study, two insulin-like growth factor-binding protein 7 (IGFBP7) C-terminal-peptides were expressed as fusion proteins to bacterial verotoxin pentamerization domain as shown by Western blotting, ELISA and mass spectroscopy. Both in vivo-biotinylated recombinant products were purified from bacterial lysates by IMAC and used directly for panning along with the recombinant IGFBP7 protein using the LAC-M Camelidae naïve single domain antibody (sdAb) library. Target-specific sdAbs to both parental protein and peptide fusions were identified by phage ELISA. Twelve different clones were isolated by phage-ELISA screening and their sdAb genes were sequenced. Soluble sdAbs and their pentameric formats were expressed in TG1 E. coli, purified by IMAC and characterized by ELISA and SPR. Several sdAbs are currently under study, however anti-IGFBP7 (P12/M12) was extensively characterized and exhibited promising anti-tumorigenic effect on PANC-1 cell lines by blocking IGFBP7 promoting activity. This study provides the basis for developing a novel imaging/therapeutic reagent for targeting and treating brain tumor angiogenesis in early stages of tumorogenesis and can also be used as a molecular tool to monitor the degree of angiogenesis in gliomas which may help to improve the clinical management of brain tumors.

Single-domain antibody (sdAb)

IGFBP7

in vivo biotinylation

VHH

BUD23-TRMT112 mediates the chromosomal tethering of Borna disease virus and catalyzes the internal m7G methylation in viral RNA / BUD23-TRMT112はボルナ病ウイルスの染色体上での結合を媒介し、ウイルスRNAの内部m7Gメチル化を触媒する

Garcia, Bea Clarise Baluyot

24 September 2021

京都大学 / 新制・課程博士 / 博士(生命科学) / 甲第23555号 / 生博第466号 / 新制||生||62(附属図書館) / 京都大学大学院生命科学研究科高次生命科学専攻 / (主査)教授 朝長 啓造, 教授 野田 岳志, 教授 千坂 修 / 学位規則第4条第1項該当 / Doctor of Philosophy in Life Sciences / Kyoto University / DFAM

bornavirus

BUD23

chromosome

host-pathogen interaction

m7G

proximity-dependent biotinylation

RNA methyltransferase

460

An Approach to Improve the Detection System of a Diagnostic Enzyme-Linked Immunosorbent Assay / En metod för att förbättra detektionssystemet för en diagnostisk ELISA-assay

Östling, Jeanette

January 2016

No description available.

ELISA

horse radish peroxidase

conjugation

biotinylation

streptavidin

cytokeratin

diagnostics

enzyme

antibody

assay

Engineering and Technology

Teknik och teknologier

Preliminary Steps to Isolate a Novel Receptor for Mac-1

Zou, Xiaoyan

12 December 2003

No description available.

Engineering, Biomedical

Adhesion Cascade

Integrins

Mac-1

Biotinylation HUVEC

Detergent Treatment of Microspheres

GPI-anchored proteins

Structural studies of homologous recombination in bacteria

Xing, Xu

24 August 2007

No description available.

Biophysics, General

RecA

Red&946

X-ray Crystallography

Limited Protease Digestion

Biotinylation

Domain Structure

Development of new approaches to study the role of chromatin in dna damage response / Développement de nouvelles approches pour étudier le rôle de la chromatine en réponse aux dommages de l’adn

Shoaib, Muhammad

06 November 2011

Le génôme des cellules eucaryotes est condensé au sein d'une structure complexe hiérarchiquement organisée : la chromatine. La chromatine est composée d'ADN, de protéines histone et non-histone. Cette thèse a pour but d'étudier le rôle de la chromatine dans la réponse cellulaire aux dommages de l'ADN (DDR) par les méthodologies de génomique fonctionnelle et de protéomique. Nous avons tout d'abord analysé les modifications post-traductionnelles (PTM) des histones dans le cadre des pontages inter-brins (ou "Interstrand Crosslinks", ICL), type particulier de lésions de l'ADN, en choisissant le modèle de l'Anémie de Fanconi (FA). Ceci a été réalisé grâce aux techniques de protéomique quantitative SILAC (Stable Isotope Labeling of Amino acid during Cell culture) et de spectrométrie de masse (MS). Nous avons ainsi réussi à identifier et à quantifier de nombreuses PTMs dans les histones H3 et H4, et à démontrer que certaines de ces PTM sont dépendantes d'une voie fonctionnelle de la signalisation de FA. Nous avons également approfondi l'étude des DDR dans les cellules de FA par une approche de génomique fonctionnelle. Pour cela, nous avons analysé le profil l'expression d'enzymes associées à l'acétylation et à la méthylation des histones. Nos résultats suggèrent l'existence de corrélations entre le profil d'expression de ces enzymes et les PTMs des histones. Des études complémentaires sont nécessaires en vue de confirmer ces corrélations. Nous avons également comparé le transcriptome de deux lignées cellulaires de FA (mutée en FANCC et corrigée en FANCC) après induction de dommages à l'ADN. Afin de différencier les changements spécifiquement associés à la voie de signalisation de FA en réponse aux ICL de l'ADN des réponses plus générales aux dommages de l'ADN, nous avons inclus des cellules traitées par rayonnement ionisant. En réalisant une analyse d'interactions factorielles, nous avons pu identifier une réponse transcriptionnelle aux dommages de l'ADN nécessitant une voie fonctionnelle de la signalisation de FA. Nous avons également tenté de pallier aux limitations rencontrées dans l'analyse des PTMs des histones. En effet, les PTMs des histones que nous avons identifiées représentent l'ensemble des modifications, c'est-à-dire les PTMs concernant les histones se trouvant immédiatement à proximité du site du dommage et en relation directe avec celui-ci, et les PTMs se trouvant à distance du dommage et pouvant ne pas être en relation directe avec celui-ci. Les approches courantes pour identifier les PTMs se trouvant à des loci particuliers sont basées sur l'immunoprécipitation classique de la chromatine où l'utilisation de formaldéhyde altère les protéines, ce qui en rend impossible l'analyse par MS. Nous avons proposé une nouvelle méthodologie basée sur la biotinylation expérimentale d'histones situées à proximité d'une protéine particulière, suivie de la purification des nucléosomes contenant ces histones biotinylées. Contrairement àl'immunoprécipiatation classique de la chromatine, cette méthode n'induit pas d'altération des protéines, permettant ainsi de purifier les histones à partir d'un locus spécifique et d'analyser à grande échelle leurs PTMs par MS. Cette approche permet aussi de suivre dans le temps les PTMs d'une fraction des histones juste après leur biotinylation. Enfin, elle présente l'avantage de pouvoir étudier le profil des PTMs de différents états fonctionnels de la chromatine grâce à l'utilisation de variants d'histones. / In eukaryotic cells, the genome is packed into chromatin, a hierarchically organized complex composed of DNA and histone and nonhistone proteins. In this thesis we have addressed the role of chromatin in cellular response to DNA damage (DDR) using various methodologies encompassing functional genomics and proteomics. First, we analyzed histone post-translational modifications (PTM) in the context of specific kind of DNA lesions (ICL-Interstrand Crosslinks) in Fanconi anemia using quantitative proteomics methodology, SILAC (Stable Isotope Labeling of Amino acids during Cell Culture). Using mass spectrometry (MS), we have successfully identified and quantified a number of histone PTM marks in histone H3 and H4, mainly acetylations and methylations,which have shown dependence upon functional FA-pathway. As a next step, we applied a functional genomics approach to study DDR in FA cells. In this analysis we first monitored the expression profile of histone modifying enzymes related to histone acetylations and methylations. Our results suggest some correlations between histone PTMs and gene expression of histone modifying enzymes, although conclusive evidence warrants further investigations. Next, we analyzed the total transcriptome after DNA damage induction in FA mutant and wild type cells. We also included in this analysis IR irradiation, in an attempt to dissociate more generic DDR from more specific changes that are associated with the role of FA pathway to the DNA ICLs. By performing a factorial interaction analysis, we were able to isolate the part of transcriptional response to DNA damage that was requiring functional FA pathway, as well as the genes that were sensitized to DNA damage by the inactivation of FA pathway. In the final part of the thesis, we attempted to solve one of the limitations that we encountered in the histone PTM analysis. The current approaches used to study histone PTMs from particular loci involves classical chromatin immunoprecipitation, which due to involvement of formaldehyde crosslinking render the protein part mostly unavailable for MS-based proteomics. We have proposed a novel methodology, which is based upon the biotin tagging of histones proximal to a protein of interest and subsequent purification of nucleosomes carrying the tagged histone. This methodology does not involve any crosslinking, enabling us to purify histones from specific loci, and subject them to large scale MS-based histone PTM analysis. A time dimension can also be added to our approach, as we can follow the modification status of particular fraction of histones once they get biotinylated. Another advantage is the use of alternate variant histones, which allows us to study the PTM profile of different functional states of chromatin. This methodology certainly has an edge on current techniques to study histone PTMs pattern associated with a particular protein of interest or with particular chromatin state.

Chromatine

Réponse aux dommages de l’ADN (DDR)

Analyse du transcriptome

SILAC

Biotinylation

Chromatin

Histone PTM

DNA damage response

Transcriptome analysis

SILAC

Biotinylation

Native chromatin immunoprecipitation.

Cell Wall/Surface Proteome of Candida albicans: its Application in Rapid Identification of Yeast Species by Mass Signature and Characterization by in vitro and in vivo Chemical Labelings

Qian, Jiang

14 May 2010

Candida albicans is an opportunistic fungal pathogen that may cause mucutaneous infection and/or disseminated candidasis if the host defense system is impaired (such as those in HIV patients). Cell surface of C. albicans is the frontier where initial interplay between host-pathogen takes place and therefore is of great importance in understanding the mechanism of hostpathogen interaction. MALDI-TOF-MS analysis of intact fungal cells yielded mass signatures for rapid species differentiation, strain grouping and yeast morphogenesis monitoring. Cell surface biotinylations at low temperature (4°C), enzymatic digestion of the intact fungal cell surface proteins ("whole cell shaving"), biotin-avidin affinity enrichment of biotinylated peptides, liquid chromatography mass spectrometry (LC-MS) based proteomic approach were employed for unambiguous identification of cell wall/cell wall associated proteins and the exposed peptide segments of these proteins. SILAC (Stable Isotope Labeling by Amino acids in Cell Culture) based CWP quantification analyses were performed to monitor CWP accumulation level change in response to hyphae induction. Information on surface exposed peptide segments and regulation of cell wall/surface protein during morphogenesis provided new candidates to the pool of potential peptide targets for protective vaccine development. A New type of "fluorous" (fluorinated alkane) affinity gained popularity due to its low level nonspecific protein/peptide binding. Fluorous labeling reagents that target primary amine groups in proteins/peptides were synthesized and characterized. The acid labile linker in the labeling reagents allows cleavage of the bulky fluorous tag moiety and the long oligo ethylene glycol (OEG) spacer after fluorous affinity purification. Upon collision induced decomposition, the labeled peptide ion yielded a characteristic fragment that could be retrieved from the residual portion of fluorous affinity tag, and serve as a marker to indicate that the relevant peptide had been successfully labeled. Results showed that both the protein/peptide labeling and affinity enrichment/separation process were highly efficient.

Candida albicans

Yeast differentiation

MALDI-TOF MS

Fluorous labeling reagent

LC-MS

Cell surface proteome

Surface biotinylation

SILAC

Development of new approaches to study the role of chromatin in dna damage response

Shoaib, Muhammad

06 November 2011

In eukaryotic cells, the genome is packed into chromatin, a hierarchically organized complex composed of DNA and histone and nonhistone proteins. In this thesis we have addressed the role of chromatin in cellular response to DNA damage (DDR) using various methodologies encompassing functional genomics and proteomics. First, we analyzed histone post-translational modifications (PTM) in the context of specific kind of DNA lesions (ICL-Interstrand Crosslinks) in Fanconi anemia using quantitative proteomics methodology, SILAC (Stable Isotope Labeling of Amino acids during Cell Culture). Using mass spectrometry (MS), we have successfully identified and quantified a number of histone PTM marks in histone H3 and H4, mainly acetylations and methylations,which have shown dependence upon functional FA-pathway. As a next step, we applied a functional genomics approach to study DDR in FA cells. In this analysis we first monitored the expression profile of histone modifying enzymes related to histone acetylations and methylations. Our results suggest some correlations between histone PTMs and gene expression of histone modifying enzymes, although conclusive evidence warrants further investigations. Next, we analyzed the total transcriptome after DNA damage induction in FA mutant and wild type cells. We also included in this analysis IR irradiation, in an attempt to dissociate more generic DDR from more specific changes that are associated with the role of FA pathway to the DNA ICLs. By performing a factorial interaction analysis, we were able to isolate the part of transcriptional response to DNA damage that was requiring functional FA pathway, as well as the genes that were sensitized to DNA damage by the inactivation of FA pathway. In the final part of the thesis, we attempted to solve one of the limitations that we encountered in the histone PTM analysis. The current approaches used to study histone PTMs from particular loci involves classical chromatin immunoprecipitation, which due to involvement of formaldehyde crosslinking render the protein part mostly unavailable for MS-based proteomics. We have proposed a novel methodology, which is based upon the biotin tagging of histones proximal to a protein of interest and subsequent purification of nucleosomes carrying the tagged histone. This methodology does not involve any crosslinking, enabling us to purify histones from specific loci, and subject them to large scale MS-based histone PTM analysis. A time dimension can also be added to our approach, as we can follow the modification status of particular fraction of histones once they get biotinylated. Another advantage is the use of alternate variant histones, which allows us to study the PTM profile of different functional states of chromatin. This methodology certainly has an edge on current techniques to study histone PTMs pattern associated with a particular protein of interest or with particular chromatin state.

Chromatin

Histone PTM

DNA damage response

Transcriptome analysis

SILAC

Biotinylation

Native chromatin immunoprecipitation

Biogenesis, trafficking, and function of wild-type and mutant cystic fibrosis transmembrane conductance regulator (CFTR)

Jurkuvenaite, Asta.

January 2008

Thesis (Ph.D.)--University of Alabama at Birmingham, 2008. / Title from PDF title page (viewed on Feb. 10, 2010). Includes bibliographical references.