Study on the temporal and spatial variations of total OH reactivity and ozone production sensitivity in Tsukuba, Yokohama, and Kyoto in Japan / つくば、横浜、京都における総OH反応性測定およびオゾン生成感度の時空間変動に関する研究

Li, Jiaru

24 September 2021

京都大学 / 新制・課程博士 / 博士(地球環境学) / 甲第23558号 / 地環博第215号 / 新制||地環||41(附属図書館) / 京都大学大学院地球環境学舎地球環境学専攻 / (主査)教授 梶井 克純, 准教授 田中 周平, 准教授 上田 佳代 / 学位規則第4条第1項該当 / Doctor of Global Environmental Studies / Kyoto University / DFAM

total OH reactivity

field study

missing OH reactivity

HOx cycle

Ozone production sensitivity

450

Cervical Cancer Metastasis

Aziz, S. W., Aziz, M. H.

01 January 2017

Cancer metastasis is a highly complex process and is of great clinical importance since majority of cancer related mortality is associated with metastatic disease rather than primary tumor. The fact that cancer metastasis can develop years or even decades after primary tumor diagnosis, makes this process even more complex and therefore its understanding is of vital importance. Cervical cancer (CxC) is one of the most commonly diagnosed and cause of death among gynecologic cancers worldwide. In this chapter, our aim is to provide a broad overview of risk factors, modes of metastasis and major molecular factors and signaling pathways involved in the progression and metastasis of CxC. The understanding of these factors will enhance the knowledge of CxC pathogenesis and targeting these pathways would help combat against CxC and its metastasis.

Akt

cervical cancer metastasis

eGFR

HOX

human papillomavirus

miRNAs

mTOR

PDGFR

PI3K

VEGF

Comprehensive evaluation of oxidative capacity of ambient air with new detection technique of HOx (OH, HO{2}) radical production rate / HOx (OH, HO{2}) ラジカル生成速度の新規測定法による、実大気が持つ酸化能の包括的な評価

Tsurumaru, Hiroshi

23 January 2015

京都大学 / 0048 / 新制・課程博士 / 博士(地球環境学) / 甲第18704号 / 地環博第127号 / 新制||地環||26(附属図書館) / 31637 / 京都大学大学院地球環境学舎地球環境学専攻 / (主査)教授 梶井 克純, 教授 杉山 雅人, 准教授 清中 茂樹 / 学位規則第4条第1項該当 / Doctor of Global Environmental Studies / Kyoto University / DFAM

atmospheric chemistry

HOx radical

PERCA-LIF technique

ozonolysis

oxidation capacity

ambient air measurement

450

The Role of Affinity and Arrangement of Transcription Factor Binding Sites in Determining Hox-regulated Gene Expression Patterns

Zandvakili, Arya

30 October 2018

No description available.

Molecular Biology

Transcriptional Regulation

Hox Factors

Transcription Factors

Transcription Factor Binding Sites

Differential microRNA Expression in Barrett's Esophagus correlates with regulation of Posterior Homeotic Genes

Clark, Reilly June

13 May 2019

No description available.

Biomedical Research

Molecular Biology

Barretts Esophagus

Esophageal Adenocarcinoma

Gastroesophageal Reflux Disease

microRNA

Homeotic

HOX

HOX Gene Expressions in Cultured Articular and Nasal Equine Chondrocytes

Storch, Christiane, Fuhrmann, Herbert, Schoeniger, Axel

24 April 2023

Osteoarthritis the quality and span of life in horses. Previous studies focused on nasal cartilage as a possible source for autologous chondrocyte implantation (ACI) in cartilage defects in humans. “HOX gene-negative” nasal chondrocytes adapted articular HOX patterns after implantation into caprine joint defects and produced cartilage matrix proteins. We compared the HOX gene profile of equine chondrocytes of nasal septum, anterior and posterior fetlock to identify nasal cartilage as a potential source for ACI in horses. Cartilage was harvested from seven horses after death and derived chondrocytes were cultured in a monolayer to fourth subcultivation. HOX A3, D1, D8 and chondrocyte markers COL2 and SOX9 were analyzed with qPCR in chondrocytes of three different locations obtained during passage 0 and passage 2. HOX gene expression showed no significant differences between the locations but varied significantly between the horses. HOX genes and SOX9 remained stable during culturing. Cultured nasal chondrocytes may be a target for future research in cell-based regenerative therapies in equine osteoarthritis. The involvement of HOX genes in the high regenerative and adaptive potential of nasal chondrocytes observed in previous studies could not be confirmed.

info:eu-repo/classification/ddc/590

ddc:590

The Role of Hox Cofactors in Vertebrate Spinal Cord Development

Rottkamp, Catherine Anne-Marie

January 2008

No description available.

Biology, Neuroscience

Hox genes

locomotor disorder

spinal cord

dorsal horn

lamination

glutamate

GABA

motor neurons

EXPRESSION MICROARRAY ANALYSIS OF RENAL DEVELOPMENT AND HUMAN RENAL DISEASE

SCHWAB, KRISTOPHER R.

January 2006

No description available.

microarray

Wnt signaling

metanephros

kidney development

focal segmental glomerulosclerosis

Hox genes

gene knockout mice

Integration of regional and neural transcription factors controls EGF signaling from sensory organ precursor cells during Drosophila development

Li-Kroeger, David

05 October 2012

No description available.

Developmental Biology

Hox proteins

Gene regulation

cis-regulatory elements

Pax factors

Drosophila

Cell type specificity

Associações entre a evolução molecular dos genes Hox e a evolução da diversidade morfológica em Squamata e Marsupialia / Associations between Hox genes molecular evolution and the evolution of morphological diversity in Squamata and Marsupialia

Milograna, Sarah Ribeiro

02 December 2015

Os genes Hox padronizam o corpo dos vertebrados durante o desenvolvimento embrionário, e a compreensão de sua evolução pode elucidar mecanismos genéticos subjacentes à evolução morfológica. A evolução molecular dos genes Hox imprime assinaturas em regiões regulatórias, as quais potencialmente afetam sua expressão gênica, como os elementos cis-regulatórios (CREs) que ladeiam o cluster D de Hox e seus RNAs não-codificantes (ncRNAs). Essa Tese de Doutorado enfoca a evolução regulatória de genes HoxD envolvidos no estabelecimento dos eixos corpóreos axial ântero-posterior (AP) e apendiculares em linhagens de aminiotas que exibem características morfológicas homoplásticas peculiares: os squamatas serpentiformes (Capítulos I e II) e os marsupiais Diprotodontia (Capítulo III). No Capítulo I investigou-se, em serpentes e anfisbênias, se assinaturas regulatórias envolvidas no estabelecimento das morfologias serpentiformes foram impressas na Sequência Conservada B (Conserved Sequence B, CsB), um CRE centromérico de Hoxd10-13. Usando lagartos e outros tetrápodes como referência para a morfologia serpentiforme, regiões conservadas de CsB foram sequenciadas em 38 espécies de Squamata, cujos TFBS foram preditos e comparados. Ambas linhagens serpentiformes exibem assinaturas regulatórias divergentes e convergentes ausentes em lagartos; a convergência localizou-se em um segmento de CsB que concentra perda nas linhagens serpentiformes de diversos TFBS com funções no desenvolvimento de membros e a aquisição de um sítio de ligação para PBX1. Essa assinatura convergente impressa durante evoluções independentes da morfologia serpentiforme pode estar relacionada à elongação corpórea e à perda dos membros, evidenciando um papel do CsB no desenvolvimento do eixo AP. No Capítulo II, foi investigado se um CRE telomérico (CNS65) e um centromérico (Island I) de Hoxd, os quais regulam respectivamente regiões proximais e distais dos membros tetrápodes em desenvolvimento, retêm suas capacidades regulatórias em Serpentes. Expressões de gene repórter desses CREs de serpentes foram realizadas em camundongo transgênico, revelando deficiência de suas atividades regulatórias nos brotos de membro. A comparação dos TFBS preditos nesses elementos entre serpentes e outros tetrápodes revelou que TFBS relacionados ao desenvolvimento dos membros foram perdidos nas sequências das serpentes. Ainda, essa comparação indicou um elemento em CNS65 potencialmente envolvido especificamente na regulação da formação de estilopódio/zeugopódio, e três elementos na Island I exclusivamente reguladores do desenvolvimento autopodial. A perda de membros em x serpentes aparentemente imprimiu assinaturas nesses CREs de Hoxd que possivelmente contribuíram para sua degeneração funcional, putativamente indicando módulos específicos de regulação nos membros. No Capítulo III, ncRNAs do cluster D de Hox foram estudados no contexto da evolução morfológica do autopódio posterior e heterocronia entre o desenvolvimento de membros anteriores e posteriores em Macropus eugenii. Os ncRNAs mapeados sobre o cluster D de Hox foram selecionados a partir de transcritoma de membros de embriões de M. eugenii nos dias 23 (d23) e 25 (d25) de gravidez, e sua conservação, perfis transcricionais e padrões de expressão foram explorados. A comparação com sequências ortólogas de outros mamíferos revelou cinco ncRNAs conservados em mamíferos, e três aparentemente exclusivos dos marsupiais. Os perfis transcricionais de genes HOXD10-13 e dos ncRNAs do cluster D de Hox foram predominantemente equivalentes. Os padrões de expressão de XLOC46 foi similar aos dos genes HOXD terminais de camundongo e M. eugenii, enquanto que XLOC52 e XLOC53 apresentaram expressão idêntica à desses genes em M. eugenii, exceto pela baixa expressão de XLOC53 no d25. Os ncRNAs intergênicos/intrônicos aos genes HOXD9-12 possivelmente regulam a expressão de genes HOXD terminais em mamíferos, enquanto que XLOC52 e XLOC53 constituem bons candidatos para investigação relacionada à evolução dos membros de marsupiais. Esta Tese demonstra como estudos de assinaturas regulatórias na evolução de genes do desenvolvimento contribuem para o entendimento das histórias evolutivas de divergência entre linhagens e d / Hox genes pattern the vertebrate body during embryonic development, and understanding their evolution may unravel genetic mechanisms subjacent to morphological evolution. Molecular evolution of Hox genes entails signatures in regulatory regions that potentially affect gene expression, such as the cis-regulatory elements (CREs) that surround the HoxD cluster and its noncoding RNAs (ncRNAs). In this PhD Thesis, I have explored regulatory evolution of HoxD genes engaged in the development of appendicular and anterior-posterior body (AP) axes in amniotic lineages that exhibit homoplastic morphological peculiarities: snakelike squamates (Chapters I and II) and diprotodontid marsupials (Chapter III). In Chapter I, I investigated in snakes and amphisbaenians, whether equivalent regulatory signatures were registered in the Conserved Sequence B (CsB), a centromeric Hoxd10-13 CRE, during evolution of snakelike morphologies. Using lizards and other tetrapods to represent the lacertiform morphology, conserved regions within CsB were sequenced from 38 squamate species, and transcription factor binding sites (TFBS) were predicted and compared among groups. Both snakelike lineages carry divergent and convergent regulatory signatures not identified in lizards; the convergence located in one CsB segment comprised loss of limb-related TFBS and gain of a binding site for PBX1. This convergent regulatory signature registered along two independent processes of snakelike evolution may relate to body elongation and limb loss, and evidences a role of CsB for AP axis development. In Chapter II, I investigated whether a telomeric (CNS65) and a centromeric (Island I) Hoxd enhancer that regulate gene expression respectively at proximal and distal regions of developing limbs retain their regulatory capacities in Serpentes. Gene reporter expression of these CREs from snakes were performed in transgenic mice and revealed that their regulatory activities were abrogated in limb buds. Comparison of predicted TFBS in these elements between snakes and limbed tetrapods revealed limb-related TFBS apparently lost in snakes, and pointed to one potential stilopodium/zeugopodium-specific element in CNS65 and three likely autopodium-specific elements in Island I. Limb loss in snakes registered signatures in Hoxd CREs that possibly contributed for their functional impairment, putatively indicating limb-specific modules. Finally, in the chapter III, I studied ncRNAs from HoxD cluster in the context of hindlimb morphological evolution and heterochrony between fore and hindlimb development in the tammar wallaby Macropus eugenii. The ncRNAs mapped to HoxD cluster were selected from transcriptome performed using tammar embryo limbs at days 23 (d23) and 25 (d25) of viii pregnancy, and their conservation, transcriptional profiles and expression patterns were explored. Comparison with orthologous sequences in other mammals revealed five ncRNAs conserved among mammals, and three transcripts apparently exclusive to marsupials. Transcriptional profiles of HOXD10-13 and HoxD ncRNAs were mostly equivalent. XLOC46 expression patterns resembled those of mouse and tammar terminal HOXD genes, whereas XLOC52 and XLOC53 showed identical expression patterns to those genes of tammar, except for XLOC53 low expression at d25. The ncRNAs intergenic/intronic to HOXD9-12 may regulate expression of terminal HOXD genes in mammals, and XLOC52 and XLOC53 are suitable for investigation regarding limb evolution in marsupial. This PhD Thesis demonstrates how studies of evolutionary footprints in regulatory elements of developmental genes contribute for elucidating specific processes during lineages divergence as well as functional aspects of these genes during development.