Studies on Zhong Jun Shuai in the middle stage of State of Jin.

Wu, Chang-Ching

11 September 2012

For a period about two hundred and thirty years before 479 BC. Jing holds supreme power over all neighbouring hostile countries and protected emperor Zhou. Only until Han¡MZhao¡MWei started civil strife and Jing was torn apart, then did Zhou's empire fall. The article below is to discuss how Jing came to power with the setup of Zhong Jun Shuai¡Aand several political and civil issues raised during that period of time.

Zuo-Jhuan

Jing

Zhong Jun Shuai

Chih Di

Liou Jun

A critical study of "Chih-yeh," a short story by Hsiao Chün

Pomerantz, Michael Ward, 1944-

January 1971

No description available.

Xiao, Jun, 1908- -- Chih-yeh.

Expressão imunohistoquímica das proteínas c-Jun não fosforilada/fosforilada e p27 em leucoplasias de pacientes fumantes e não fumantes / Immunohistochemical expression of non-phosphorylated / phosphorylated c-Jun and p27 proteins in leukoplakias from smokers and nonsmokers

Lima, Joelma Sousa de

22 November 2012

Em diversos casos, o câncer bucal é precedido por lesões pré-malignas, como por exemplo, a leucoplasia, sendo que o tabaco é um fator de risco. No entanto, apesar deste potencial negativo, há estudos limitados em fumantes e não fumantes sobre o desenvolvimento de displasia para carcinoma. Sabe-se que o principal componente do factor de transcrição AP-1, a proteína c-Jun e a sua forma fosforilada (p-c-Jun), participam do ciclo celular e que sua inibição compromete a proliferação celular. A proteína p27 tem sido demonstrada como inibidora de quinase, e sabe-se que tem sua expressão diminuída durante a carcinogênese. A expressão diminuída de p27 tem sido relacionada a um pior prognóstico em carcinoma epidermóide. O objetivo deste estudo foi verificar a expressão das proteínas c-Jun, p-c-Jun e p27, em lesões potencialmente malignas diagnosticadas clinicamente como leucoplasia de pacientes fumantes e não fumantes. Foram selecionados 73 casos diagnosticados clinicamente como leucoplasias, os quais foram divididos nos seguintes grupos: leucoplasia com e sem displasia epitelial, e entre fumantes e não fumantes (perfazendo 4 grupos). Cortes histológicos das lesões foram classificados segundo o sistema de graduação binário, e subsequentemente submetidos à técnica imunohistoquímica da estreptoavidina-biotina. Avaliou-se também a associação da proliferação celular pela c-Jun, p-c-Jun e p27 com o tabagismo, presença e ausência de displasia, localização e gênero. O presente estudo verificou que ocorrência de displasia epitelial em baixo e alto risco não teve associação com o hábito de fumar do paciente (p= 0,5430). Avaliando apenas a imunorreatividade das proteínas c-Jun, p-c-Jun e p27 individualmente observouse que a expressão destas não teve associação com a condição fumante do paciente (p> 0,05). Porém, ao compararmos a imunomarcação de c-Jun e p-c-Jun entre si, no total da amostra (p=0,0448) e somente para displasia em fumantes (p=0,0165), nota-se significativamente menor expressão de p-c-Jun. Comparando c-Jun e p27 nas displasias em não fumantes, houve significativamente maior expressão de c-Jun e menor expressão de p27 (p=0,0079). A análise do Teste binomial de duas proporções revelou que as regiões de língua e assoalho bucal estavam associadas à ocorrência de lesões displásicas quando comparadas a lesões não displásicas (p<0,0001). Concluiu-se que não houve correlação entre fumo e grau de displasia. A expressão das proteínas c-Jun, p-c-Jun e p27 foi independente da condição fumante do paciente. / In Several cases, the oral cancer is preceded by-malignant lesions potentially, such as leukoplakia, and that tobacco is a risk factor. However, despite this negative potential, there are limited studies in smokers and nonsmokers on the development of dysplasia to carcinoma. It is known that the main component of the transcription factor AP-1, c-Jun protein and its phosphorylated form (pc-Jun), participate in cell cycle inhibition and their committed cell proliferation. The p27 protein has been shown to inhibit kinase, and it is known that their expression is decreased during carcinogenesis. The decreased expression of p27 has been linked to poor prognosis in squamous cell carcinoma. The aim of this study was to evaluate the expression of proteins c-Jun, pc-Jun and p27 in potentially malignant lesions from smokers and non-smokers, diagnosed clinically as leukoplakiaa in smokers and nonsmokers. We selected 73 cases diagnosed clinically as leukoplakia, which were divided into the following groups: leukoplakia with and without dysplasia, and between smokers and nonsmokers (totaling 4 groups). Histological lesions were classified according to the binary grading system, and subsequently subjected to immunohistochemistry technique streptavidin-biotin. We also evaluated the association of cell proliferation of c-Jun, pc-Jun and p27 with smoking, presence and absence of dysplasia, location and gender. This study found that the occurrence of epithelial dysplasia in low-and high-risk had no association with the patient\'s smoking habit (p = 0,5430). When evaluating the immunoreactivity of the proteins c-Jun, p27 and pc-Jun alone it was observed that the expression of them was also independent of the condition of the patient smoking (p> 0,05). However, when comparing the immunostaining of c-Jun and pc-Jun together, for the total sample (p = 0,0448) and only for dysplasia in smokers (p = 0,0165), there was significantly lower expression of pc-Jun. Comparing p27 and c-Jun in dysplasias in nonsmokers, there was significantly higher expression of c-Jun and reduced expression of p27 (p = 0,0079). The analysis of two binomial proportions test revealed that the lesions in the tongue and floor of the mouth were more prone to be dysplastic (p <0.0001). It was concluded that there was no correlation between smoking and degree of dysplasia. The expression of c-Jun, p27 and pc-Jun proteins was independent of smoking habit of the patient. The anatomoclinical aspects combined with the expressions of c-Jun and p27 may assist the pathologist in directing the histopathological diagnosis.

c-Jun protein

Displasia epitelial

Epithelial dysplasia

Leucoplasia Oral

Oral leukoplakia

p27 protein

pc-Jun protein

Proteína c-Jun

Proteína p-c-Jun

Proteína p27

Tabagismo

Tobacco

Expressão imunohistoquímica das proteínas c-Jun não fosforilada/fosforilada e p27 em leucoplasias de pacientes fumantes e não fumantes / Immunohistochemical expression of non-phosphorylated / phosphorylated c-Jun and p27 proteins in leukoplakias from smokers and nonsmokers

Joelma Sousa de Lima

22 November 2012

Em diversos casos, o câncer bucal é precedido por lesões pré-malignas, como por exemplo, a leucoplasia, sendo que o tabaco é um fator de risco. No entanto, apesar deste potencial negativo, há estudos limitados em fumantes e não fumantes sobre o desenvolvimento de displasia para carcinoma. Sabe-se que o principal componente do factor de transcrição AP-1, a proteína c-Jun e a sua forma fosforilada (p-c-Jun), participam do ciclo celular e que sua inibição compromete a proliferação celular. A proteína p27 tem sido demonstrada como inibidora de quinase, e sabe-se que tem sua expressão diminuída durante a carcinogênese. A expressão diminuída de p27 tem sido relacionada a um pior prognóstico em carcinoma epidermóide. O objetivo deste estudo foi verificar a expressão das proteínas c-Jun, p-c-Jun e p27, em lesões potencialmente malignas diagnosticadas clinicamente como leucoplasia de pacientes fumantes e não fumantes. Foram selecionados 73 casos diagnosticados clinicamente como leucoplasias, os quais foram divididos nos seguintes grupos: leucoplasia com e sem displasia epitelial, e entre fumantes e não fumantes (perfazendo 4 grupos). Cortes histológicos das lesões foram classificados segundo o sistema de graduação binário, e subsequentemente submetidos à técnica imunohistoquímica da estreptoavidina-biotina. Avaliou-se também a associação da proliferação celular pela c-Jun, p-c-Jun e p27 com o tabagismo, presença e ausência de displasia, localização e gênero. O presente estudo verificou que ocorrência de displasia epitelial em baixo e alto risco não teve associação com o hábito de fumar do paciente (p= 0,5430). Avaliando apenas a imunorreatividade das proteínas c-Jun, p-c-Jun e p27 individualmente observouse que a expressão destas não teve associação com a condição fumante do paciente (p> 0,05). Porém, ao compararmos a imunomarcação de c-Jun e p-c-Jun entre si, no total da amostra (p=0,0448) e somente para displasia em fumantes (p=0,0165), nota-se significativamente menor expressão de p-c-Jun. Comparando c-Jun e p27 nas displasias em não fumantes, houve significativamente maior expressão de c-Jun e menor expressão de p27 (p=0,0079). A análise do Teste binomial de duas proporções revelou que as regiões de língua e assoalho bucal estavam associadas à ocorrência de lesões displásicas quando comparadas a lesões não displásicas (p<0,0001). Concluiu-se que não houve correlação entre fumo e grau de displasia. A expressão das proteínas c-Jun, p-c-Jun e p27 foi independente da condição fumante do paciente. / In Several cases, the oral cancer is preceded by-malignant lesions potentially, such as leukoplakia, and that tobacco is a risk factor. However, despite this negative potential, there are limited studies in smokers and nonsmokers on the development of dysplasia to carcinoma. It is known that the main component of the transcription factor AP-1, c-Jun protein and its phosphorylated form (pc-Jun), participate in cell cycle inhibition and their committed cell proliferation. The p27 protein has been shown to inhibit kinase, and it is known that their expression is decreased during carcinogenesis. The decreased expression of p27 has been linked to poor prognosis in squamous cell carcinoma. The aim of this study was to evaluate the expression of proteins c-Jun, pc-Jun and p27 in potentially malignant lesions from smokers and non-smokers, diagnosed clinically as leukoplakiaa in smokers and nonsmokers. We selected 73 cases diagnosed clinically as leukoplakia, which were divided into the following groups: leukoplakia with and without dysplasia, and between smokers and nonsmokers (totaling 4 groups). Histological lesions were classified according to the binary grading system, and subsequently subjected to immunohistochemistry technique streptavidin-biotin. We also evaluated the association of cell proliferation of c-Jun, pc-Jun and p27 with smoking, presence and absence of dysplasia, location and gender. This study found that the occurrence of epithelial dysplasia in low-and high-risk had no association with the patient\'s smoking habit (p = 0,5430). When evaluating the immunoreactivity of the proteins c-Jun, p27 and pc-Jun alone it was observed that the expression of them was also independent of the condition of the patient smoking (p> 0,05). However, when comparing the immunostaining of c-Jun and pc-Jun together, for the total sample (p = 0,0448) and only for dysplasia in smokers (p = 0,0165), there was significantly lower expression of pc-Jun. Comparing p27 and c-Jun in dysplasias in nonsmokers, there was significantly higher expression of c-Jun and reduced expression of p27 (p = 0,0079). The analysis of two binomial proportions test revealed that the lesions in the tongue and floor of the mouth were more prone to be dysplastic (p <0.0001). It was concluded that there was no correlation between smoking and degree of dysplasia. The expression of c-Jun, p27 and pc-Jun proteins was independent of smoking habit of the patient. The anatomoclinical aspects combined with the expressions of c-Jun and p27 may assist the pathologist in directing the histopathological diagnosis.

Displasia epitelial

Leucoplasia Oral

Proteína c-Jun

Proteína p-c-Jun

Proteína p27

Tabagismo

c-Jun protein

Epithelial dysplasia

Oral leukoplakia

p27 protein

pc-Jun protein

Tobacco

Role of differential phosphorylation of c-Jun N-terminal domain in degenerative and inflammatory pathways of CNS / Die Rolle der unterschiedlichen Phosphorylierung von c-Jun N-terminale Domäne bei degenerativen und entzündlichen Wirkungen im Nervengewebe

Reddy, Edamakanti Chandrakanth

January 2013

In this study we have investigated the possible role of c-Jun and it’s activation by the JNK pathway in neuronal cell death and in the inflammatory response of activated astrocytes. The first part of this thesis focuses on the role of site specific phosphorylation of c-Jun in neuronal cell death. The second part focuses on the function of c-Jun in LPS-mediated activation of Bergmann glia cells. In the nervous system, activation of c-Jun transcription factor by different isoforms of c-Jun N-terminal kinase (JNK) functions in various cellular programs, including neurite outgrowth, repair and apoptosis. Yet, the regulatory mechanism underlying the functional dichotomy of c-Jun remains to be elucidated. Serine (S) 63/73 and threonine (T) 91/93 of c-Jun are the target phosphorylation sites for JNKs in response to various stimuli. Yet, these two groups of phosphorylation sites are differentially regulated in vivo, as the S63/73 sites are promptly phosphorylated upon JNK activation, whereas T91/93 phosphorylation requires a priming event at the adjacent T95 site. In our study, we used cerebellar granule cell (CGC) apoptosis by trophic/potassium (TK) deprivation as a model system to investigate the regulation and function of site-specific c-Jun phosphorylation at the S63 and T91/T93 JNK-sites in neuronal cell death. In this model system, JNK induces pro-apoptotic genes through the c-Jun/Ap-1 transcription factor. On the other side, a survival pathway initiated by lithium leads to repression of pro-apoptotic c-Jun/Ap-1 target genes without interfering with JNK activity. Yet, the mechanism by which lithium inhibits c-Jun activity remains to be elucidated. We found that TK-deprivation led to c-Jun phosphorylation at all three JNK sites. However, immunofluorescence analysis of c-Jun phosphorylation at single cell level revealed that the S63 site was phosphorylated in all c-Jun-expressing cells, whereas the response of T91/T93 phosphorylation was more sensitive, mirroring the switch-like apoptotic response of cerebellar granular cells (CGCs). Furthermore, we observed that lithium impaired c-Jun phosphorylation at T91/93, without interfering with S63/73 phosphorylation or JNK activation, suggesting that T91/T93 phosphorylation triggers c-Jun pro-apoptotic activity. Notably, expression of a c-Jun mutant lacking the T95-priming site for T91/93 phosphorylation (c-Jun A95) mimicked the effect of lithium on both cell death and c-Jun site-specific phosphorylation, whereas it was fully able to induce neurite outgrowth in naïve PC12 cells. Vice-versa, a c-Jun mutant bearing aspartate-substitution of T95 overwhelmed lithium-mediate protection of CGCs from TK-deprivation, validating that inhibition of T91/T93/T95 phosphorylation underlies the effect of lithium on cell death. Mass-spectrometry analysis confirmed that c-Jun is phosphorylation at T91/T93/T95 in cells. Moreover, recombinant-JNK phosphorylated c-Jun at T91/T93 in a T95-dependent manner. Based on our results, we propose that T91/T93/T95 phosphorylation of c-Jun functions as a sensitivity amplifier of the JNK cascade, setting the threshold for c-Jun pro-apoptotic activity in neuronal cells. In the central nervous system (CNS), the c-Jun transcription factor has been mainly studied in neuronal cells and coupled to apoptotic and regenerative pathways following brain injury. Besides, several studies have shown a transcriptional role of c-Jun in activated cortical and spinal astrocytes. In contrast, little is known about c-Jun expression and activation in Bergmann glial (BG) cells, the radial cerebellar astrocytes playing crucial roles in cerebellar development and physiology. In this study, we used neuronal/glial cerebellar cultures from neonatal mice to assess putative functions of c-Jun in BG cells. By performing double immunocytochemical staining of c-Jun and two BG specific markers, S100 and GLAST, we observed that c-Jun was highly expressed in radial glial cells derived from Bergmann glia. Bergmann glia-derived cells expressed toll-like receptor (TLR 4) and treatment with bacterial lipopolysaccharide (Le et al.) induced c-Jun phosphorylation at S63, exclusively in BG cells. Moreover, LPS induced IL-1β expression and inhibition of JNK activity abolished both c-Jun phosphorylation and the increase of IL-1β mRNA. Notably, we also observed that LPS failed to induce IL-1β mRNA in neuronal/glial cerebellar cultures generated from conditional knockout mice lacking c-Jun expression in the CNS. These results indicate that c-Jun plays a central role in c-Jun in astroglial-specific induction of IL-1β. Furthermore, we confirmed in vivo that c-Jun is expressed in BG cells, during the formation of the BG monolayer. Altogether, our finding underlines a putative role of c-Jun in astroglia-mediated neuroinflammatory dysfunctions of the cerebellum. / In dieser Studie wurde die Rolle des Transkriptionsfaktors c-Jun sowie seine Aktivierung durch den JNK Signalweg beim neuronalen Zelltod und bei der entzündlichen Reaktion von aktivierten Astrozyten untersucht. Der erste Teil dieser Arbeit beschäftigt sich mit der Rolle von mehrfacher c-Jun Phosphorylierung an den Aminosäuren Threonin 91/93/95 beim neuronalen Zelltod. Der zweite Teil konzentriert sich auf die Rolle von c-Jun und seine Transaktivierung in LPS-vermittelter Aktivierung von Bergmann Gliazellen. Als Modellsystem für den neuronalen Zelltod wurde die Apoptose von cerebellären Granularzellen (CGC) durch trophische Granulazellen Kaliumkonzentration-Erniedrigung (TK) verwendet, da es ein Modell der Um das ist, das Zusammenspiel von pro-apoptotischen und pro-Überleben Signalwegen beim neuronalen Zelltod zu studieren. In diesem Modell induziert die c-Jun N-terminale Kinase (JNK) pro-apoptotische Gene durch den c-Jun/Ap-1 Transkriptionsfaktor. Auf der anderen Seite, führt ein Lithium-induzierter Überleben-Signalweg zur Unterdrückung der pro-apoptotischen c-Jun/Ap-1 Zielgene, ohne Interferenz mit JNK Aktivität. Es blieb jedoch der Mechanismus zu klären, durch den Lithium c-Jun-Aktivität hemmt. In der Arbeit wurde dieses Modellsystem benutzt, um die Regulation und Funktion der c-Jun-Phosphorylierung durch JNK an den Stellen S63 und T91/T93 beim neuronalen Zelltod zu studieren. Es wurde gefunden, dass TK-Kaliumerniedrigung zu c-Jun phosphorylierung führte und zwar an allen drei durch JNK phosphorylierbaren Ser/Thr (JNK-Stellen). Immunfluoreszenzanalyse von c-Jun Phosphorylierung auf Einzel-Zell-Ebene ergab jedoch, dass die S63-Stelle in allen c-Jun-exprimierenden Zellen phosphoryliert wurde, während T91/T93 Phosphorylierung empfindlicher war, analog zur Schalter-ähnlichen apoptotischen Antwort von CGCs. Umgekehrt verhinderte Lithium T91 und T93 Phosphorylierung und Zelltod ohne Wirkung auf die S63-Seite, was darauf hindeutet, dass T91/T93 Phosphorylierung durch c-Jun eine pro-apoptotische Aktivität auslöst. Dementsprechend schützte eine c-Jun-Mutation, der die T95 Priming-Stelle für T91/93 Phosphorylierung fehlt (T95A), CGCs vor Apoptose, wohingegen T95A Neuriten-wachstum in PC12-Zellen induzieren konnte. Umgekehrt führte eine c-Jun Mutante mit Aspartat-Substitution von T95 (T95D ) zur Aufhebung der schützenden Wirkung von Lithium auf CGC Apoptose, wodurch bestätigt wurde, dass die Inhibierung der T91/T93/T95 Phosphorylierung der Wirkung von Lithium auf den Zelltod zugrundeliegt. Massenspektrometrie-Analyse bestätigte multiple Phosphorylierung von c-Jun an T91/T93/T95 in den Zellen. Außerdem wurde rekombinantes c-Jun durch JNK an T91/T93 in einer T95-abhängigen Weise phosphoryliert. Basierend auf diesen Ergebnissen wird vorgeschlagen, dass T91/T93/T95 phosphorylierung von c-Jun als Empfindlichkeit-Verstärker der JNK-Kaskade fungiert, der die Schwelle für die pro-apoptotische Aktivität von c-Jun in neuronalen Zellen einstellt. Im zentralen Nervensystem (ZNS) wurde die Rolle des c-Jun Transkriptionsfaktors hauptsächlich bei neuronalem Zelltod und bei neuronaler Regeneration nach Hirnschädigung untersucht. Außerdem wurde auch eine Rolle für c-Jun bei der Transkription in aktivierten kortikalen und spinalen Astrozyten beschrieben. Im Gegensatz dazu ist wenig bekannt über die Expression von c-Jun und dessen Transaktivierung in Bergmann Gliazellen (BG)-Zellen, die eine entscheidende Rolle bei der Entwicklung des Kleinhirns und dessen Physiologie spielen. In dieser Arbeit wurde die putative Rolle von c-Jun bei kultivierten neuronalen/BG-Zellen aus dem Maus-Kleinhirn untersucht. Immunfluoreszenzanalyse von c-Jun und zwei für BG-Zellen spezifische Marker, S100 und GLAST, ergab, dass c-Jun in BG-Zellen hoch exprimiert wurde. Außerdem wurde gefunden, dass der Toll-like Rezeptor TLR4 in BG-Zellen exprimiert ist und dass die Behandlung mit bakteriellem Lipopolysaccharid (Le et al.) die c-Jun- Phosphorylierung an S63 induziert. Zusätzlich wurde gefunden, dass LPS IL-1b Expression induziert und die Inhibierung von JNK Aktivität verhinderte sowohl c-Jun-Phosphorylierung, als auch die Zunahme von IL-1 b mRNA. Insbesondere konnte LPS die IL-1b mRNA-Produktion in neuronalen / BG-Kulturen aus konditionellen Knockout Mäusen, denen c-Jun im ZNS fehlte, nicht induzieren, womit gezeigt wurde, dass c-Jun bei der Astroglia-spezifischen Induktion von IL-1 b essentiell ist. Immunohistochemische Analyse von c-Jun-exprimierenden Zellen im postnatalen Kleinhirn bestätigte in-vivo die Expression von c-Jun in BG Zellen und förderte eine dynamische Expression von c-Jun während der Entwicklung der BG Monolayer zutage. Insgesamt unterstreichen die Befunde dieser Arbeit eine wahrscheinliche Rolle von c-Jun bei Astroglia-vermittelten neuroinflammatorischen Funktionsstörungen des Kleinhirns.

Jun

Zelltod

Zentralnervensystem

Astrozyt

ddc:610

Institutional trends at the Whampoa Military School: 1924-1926

Landis, Richard Brian,

January 1969

Thesis (Ph. D.)--University of Washington. / eContent provider-neutral record in process. Description based on print version record. Bibliography: l. [229]-235.

Guo min ge ming jun. China

Institutional trends at the Whampoa Military School: 1924-1926.

Landis, Richard Brian,

January 1969

Thesis (Ph. D.)--University of Washington. / Bibliography: l. [229]-235.

Guo min ge ming jun. China

Institutional trends at the Whampoa Military School: 1924-1926

Landis, Richard Brian,

January 1969

Thesis (Ph. D.)--University of Washington. / Bibliography: l. [229]-235. Also issued in print.

Guo min ge ming jun. China

Leben und Werk des Regensburger Domorganisten und Komponisten Joseph Renner Jun.... : ein Beitrag zum süddeutschen Spät-Cäcilianismus /

Huber, Werner,

January 1991

Diss.--Ratisbonne, 1990. / Bibliogr. p. 347. Index.

Renner Jun., Joseph, Orgue, Musique d'

Clonagem, expressão, purificação e caracterização estrutural da região AP-1 da oncoproteína Jun / Cloning, expression, purification and structural evaluation of the region AP-1 oncoprotein Jun

Silva, Flavio Sousa

25 June 2014

A proteína jun é um dos principais integrantes do complexo AP-1 e está envolvido nos processos inflamatórios, diferenciação, apoptose e migração celular. Esta proteína pode formar homodímeros e heterodímeros por meio da dimerização que ocorre pelo sítio de sequências de leucinas. Existem evidências de que a proteína jun pode ser inibida pela proteína RPL10 mediante a ligação destas proteínas, no mesmo sítio de sequências de leucinas no núcleo celular, parando a progressão de tumores. O objetivo deste trabalho foi expressar, isolar e caracterizar a região de ligação das sequências de leucinas (região AP-1), para estudos posteriores de ligação com a proteína RPL10. O cDNA para proteína jun foi amplificado por PCR e clonado nos vetores de expressão pET 26b(+), pET 28a-c(+) e p1813 e expressa em E.coli BL21 (DE3). A proteína expressa em vetor pET28_AP1 foi eficientemente purificada pela técnica de cromatografia de afinidade a íons metálicos, por possuir uma sequência (poli)histidina que facilitou a purificação, apresentando um excelente grau de pureza. A identidade da proteína foi confirmada através de análise feita por western blotting e dot blotting e também por analise por espectrometria de massas. / The jun protein is one of the main AP-1 complex members and is involved in the inflammatory process, differentiation, apoptosis and cell migration. The Jun protein may form homodimers and heterodimers by dimerization in the leucines sequences site. There are evidences that jun protein can be inhibited by RPL10 protein through these protein binding in the same leucine sequences site, in the cell nucleus, stopping the tumor progress. The objective of this study was to express, isolate and characterize the binding region of the leucine sequences (AP-1 region) for subsequent binding studies with RPL10 protein. The jun protein cDNA was amplified by PCR and cloned into pET 26b(+), pET 28a-c(+) and p1813 expression vectors, and was expressed in E.coli BL21 (DE3). The protein expressed in pET28_AP1 vector was efficiently purified by the affinity chromatography technique to metal ions because have a (poly)histidine sequence which facilitate the protein purification, showing an excellent high purity. The protein identity was confirmed by western blotting and dot blotting and also by mass spectrometry analysis.

AP-1

AP-1

cancer

câncer

Jun

Jun

oncogene

oncogene

oncoprotein

oncoproteína