• 제목/요약/키워드: shock proteins

검색결과 372건 처리시간 0.017초

Comparison of structure, function and regulation of plant cold shock domain proteins to bacterial and animal cold shock domain proteins

  • Chaikam, Vijay;Karlson, Dale T.
    • BMB Reports
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    • 제43권1호
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    • pp.1-8
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    • 2010
  • The cold shock domain (CSD) is among the most ancient and well conserved nucleic acid binding domains from bacteria to higher animals and plants. The CSD facilitates binding to RNA, ssDNA and dsDNA and most functions attributed to cold shock domain proteins are mediated by this nucleic acid binding activity. In prokaryotes, cold shock domain proteins only contain a single CSD and are termed cold shock proteins (Csps). In animal model systems, various auxiliary domains are present in addition to the CSD and are commonly named Y-box proteins. Similar to animal CSPs, plant CSPs contain auxiliary C-terminal domains in addition to their N-terminal CSD. Cold shock domain proteins have been shown to play important roles in development and stress adaptation in wide variety of organisms. In this review, the structure, function and regulation of plant CSPs are compared and contrasted to the characteristics of bacterial and animal CSPs.

Campylobacter jejuni에서 고온충격 단백질의 합성과 내열성 (Synthesis and thermotolerance of heat shock proteins in campylobacter jejuni)

  • 김치경;김현옥;이길재
    • 미생물학회지
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    • 제29권1호
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    • pp.49-55
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    • 1991
  • The heat shock responses of Campylobacter jejuni were studied by examination of their survival rates and synthesis of heat shocd proteins. When C. jejuni cells were treated at the sublethal temperatures of 48.deg.C for 30 minutes, most of the cells maintained their viabilities and synthesized the heat shock proteins of 90, 73, and 66 kD in molecular weight. By the method of two-dimensional electrophoresis, the heat shock proteins of C. jejuni were identified to be Hsp90, Hsp73, and Hsp66. During the heat shock at 48.deg.C, the heat shock proteins were induced from about 5 minutes after the heat shock treatment. Their synthesis was continued upto 30 minutes, but remarkably retarded after 50 minutes. When C. jejune cells were heat shocked at 51.deg.C for 30 minutes, the survival rates of the cells were decreased by about $10^{3}$ fold and synthesis of heat shock proteins and normal proteins was also generally retarded. The cells exposed to 55.deg.C for 30 minutes died off by more than $10^{5}$ cells and the new protein synthesis was not observed. But when C. jejuni cells were heat-shocked at the sublethal temperature of 48.deg.C for 15 to 20 minutes and then were exposed at the lethal temperature of 55.deg.C for 30 minutes, their viabilities were higher than those exposed at 55.deg.C for 30 minutes without pre-heat shock at 48.deg.C. Therefore, the heat shock proteins synthesized at the sublethal temperature of 48.deg.C in C. jejuni were thought to be responsible for thermotolerance. However, when C. jejuni cells heat-shocked at various ranges of sublethal and lethal temperatures were placed back to the optimum temperature of 42.deg.C, the multiplication patterns of the cells pretreated at different temperatures were not much different each other.

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Stress-shock Response of a Methylotrophic Bacterium Methylovorus sp. strain SSl DSM 11726

  • Park, Jong H.;Kim, Si W.;Kim, Eungbin;Young T. Ro;Kim, Young M.
    • Journal of Microbiology
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    • 제39권3호
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    • pp.162-167
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    • 2001
  • Methylovorus sp. strain SS1 DSM 11726 was found to grow continuously when it was transferred from 30$\^{C}$ to 40$\^{C}$ and 43$\^{C}$. A shift in growth temperature from 30$\^{C}$ to 45$\^{C}$, 47$\^{C}$ and 50$\^{C}$ reduced the viability of the cell population by more than 10$^2$, 10$^3$and 10$\^$5/ folds, respectively, after 1h cultivation. Cells transferred to 47$\^{C}$ and 50$\^{C}$ after preincubation for 15 min at 43$\^{C}$, however, exhibited 10-fold increase in viability. It was found that incubation for 15 min at 40$\^{C}$ of Methylovorus sp. strain SSl grown at 30$\^{C}$ was sufficient to accelerate the synthesis of a specific subset of proteins. The major heat shock proteins had apparent molecular masses of 90, 70, 66, 60, and 58 kDA. The 60 and 58 kDa proteins were found to cross-react with the antiserum raised against GroEL protein. The heat shock response persisted for over 1h. The shock proteins were stable for 90 min in the cell. Exposure of the cells to methanol induced proteins identical to the heat shock proteins. Addition of ethanol induced a unique protein with a molecular mass of about 40 kDa in addition to the heat-induced proteins. The proteins induced in paraquat-treated cells were different from the heat shock proteins, except the 70 and 60 kDa proteins.

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어류 CHSE-214와 인간 HeLa 세포에서의 열충격에 의한 Heat Shock Protein의 발현 (Expression of the Heat Shock Proteins in HeLa and Fish CHSE-214 Cells Exposed to Heat Shock)

  • 공회정;강호성김한도
    • 한국동물학회지
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    • 제39권2호
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    • pp.123-131
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    • 1996
  • In this study, we examined the expression of heat shock proteins (HSPs) in fish cell line CHSE-2lnl and human HeLa cells exposed to heat shock. In fish CHSE-214 cells HSP70 was the major polvpeptide induced by an elevated temperature or an amino acid analog, while in HeLa cells HSP90 as well as HSP70 were prominently enhanced in response to these stresses. Pretreatment of actinomvcin D prior to heat shock completely inhibited the induction of fish HSP70, indicating the transcriptional regulation of fish HSP70 gene expression. In HeLa and CHSE-214 cells either recovering from heat shock or experiencing prolonged heat shock, attenuation in the HSP90 a'nd HSP70 induction occurred but both induction and repression of HSP70 synthesis appear 19 precede those of HSP90. Moreover, attenuation did not occur in the syntheses of 40 kDa and 42 kOto proteins which were only induced in CHSE-214 cells. The enhanced syntheses of these he proteins continued as long as CHSE-214 cells were Siven heat shock. These results suggest that down-regulation of HSP syntheses during prolonged heat shock may be controlled by several different. as vet undefined, mechanisms.

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열 및 에탄을 shock이 Vibrio vulnificus의 막단백질에 미치는 영향 (Effects of heat and ethanol shock on the membrane proteins of Vibrio vulnificus)

  • 허문수;정초록
    • 한국어병학회지
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    • 제12권2호
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    • pp.89-99
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    • 1999
  • V. vulnificus ATCC 27562균주의 배양 온도를 $2^{\circ}C $, 20분간 및 6% 에탄올, 10분간으로 반응시켰을 때 SDS-PAGE상에서 새로운 16가지의 heat shock protein(hsps)과 10가지의 ethanol shock protein이 나타났다. Lethal temperature에 노출하기전에 미리 열 충격을 가한 경우 thermo tolerance가 유도되었다. 균체면역에 의해 생성된 항혈청과 열 충격 세포에서 분리된 막단백질과의 ELISA에서는 Outer Membrane Protein(OMP)에서 높은 면역반응을 나타냈으며 western blotting으로는 Inner Membrane Protein(IMP)에서는 62kDa, OMP에서는 69 kDa단백이 높은 면역원성을 나타냈다. ethanol 충격 반응에서는 IMP에서는 48 kDa, OMP에서는 오직 major밴드에서만 면역반응성이 확인되었다. anti-V, vulnificus혈청에 대한 균체 응집시험에서는 열 충격 반응 후의 균체가 정상 균체에 비해 응집반응성이 높았다.

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Ethanol 충격에 의한 Campylobacter jejuni 의 Ethanol 내성 (Ethanol Tolerance of Campylobacter jejuni by Ethanol Shock)

  • 김치경;가익현
    • 미생물학회지
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    • 제30권5호
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    • pp.377-382
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    • 1992
  • Ethanol 충격에 의한 Campylobacter jejuni 의 생존성 및 ethanol 충격 단백질의 합성과 내성반응을 연구하였다. 1% 의 ethanol 충격에 대해서는 60분, 3% 의 ethanol 충격에서는 30분, 5%의 ethanol 충격에서는 10분대데, 분자량이 90, 66, 60, 45, 24 kd 인 충격 단백질이 합성되는 것을 autoradiography 로 확인하였다. C. jejuni 를 1% 와 3% 의 ethanol 에서 30 분간 충격을 준후 각각 3% 와 5% 의 농도에 노출시켰을때의 생존율은 ethanol 충격엾이 직접 3% 와 5% 의 ethanol에 노출시켰을 때보다 $10^{1}$ $-10^{2}$ 정도 높게 나타났다. 또 5% 에서 10분간 충격을 준후7% 의 ethanol 에 노출시켰을 때에도 직접 7% 에 노출시켰을 때보다 생존율이 $10^{2}$ 정도 높게 나타났다. 그러므로 1-5% 의 ethanol 로 충격을 받은 C. jejuni 는 그보다 높은 농도의 ethanol 에 대하여 ethanol 충격단백질에 의한 내성반응이 나타나 생존율의 감소가 훨씬 적어졌다.

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Screening Molecular Chaperones Similar to Small Heat Shock Proteins in Schizosaccharomyces pombe

  • Han, Jiyoung;Kim, Kanghwa;Lee, Songmi
    • Mycobiology
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    • 제43권3호
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    • pp.272-279
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    • 2015
  • To screen molecular chaperones similar to small heat shock proteins (sHsps), but without ${\alpha}$-crystalline domain, heat-stable proteins from Schizosaccharomyces pombe were analyzed by 2-dimensional electrophoresis and matrix assisted laser desorption/ionization time-of-flight mass spectrometry. Sixteen proteins were identified, and four recombinant proteins, including cofilin, NTF2, pyridoxin biosynthesis protein (Snz1) and Wos2 that has an ${\alpha}$-crystalline domain, were purified. Among these proteins, only Snz1 showed the anti-aggregation activity against thermal denaturation of citrate synthase. However, pre-heating of NTF2 and Wos2 at $70^{\circ}C$ for 30 min, efficiently prevented thermal aggregation of citrate synthase. These results indicate that Snz1 and NTF2 possess molecular chaperone activity similar to sHsps, even though there is no ${\alpha}$-crystalline domain in their sequences.

Heat Shock Proteins: A Review of the Molecular Chaperones for Plant Immunity

  • Park, Chang-Jin;Seo, Young-Su
    • The Plant Pathology Journal
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    • 제31권4호
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    • pp.323-333
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    • 2015
  • As sessile organisms, plants are exposed to persistently changing stresses and have to be able to interpret and respond to them. The stresses, drought, salinity, chemicals, cold and hot temperatures, and various pathogen attacks have interconnected effects on plants, resulting in the disruption of protein homeostasis. Maintenance of proteins in their functional native conformations and preventing aggregation of non-native proteins are important for cell survival under stress. Heat shock proteins (HSPs) functioning as molecular chaperones are the key components responsible for protein folding, assembly, translocation, and degradation under stress conditions and in many normal cellular processes. Plants respond to pathogen invasion using two different innate immune responses mediated by pattern recognition receptors (PRRs) or resistance (R) proteins. HSPs play an indispensable role as molecular chaperones in the quality control of plasma membrane-resident PRRs and intracellular R proteins against potential invaders. Here, we specifically discuss the functional involvement of cytosolic and endoplasmic reticulum (ER) HSPs/chaperones in plant immunity to obtain an integrated understanding of the immune responses in plant cells.

Overexpressed Drosophila DNA Methyltransferase 2 Isoform C Interacts with Hsp70 in Vivo

  • Roder, Karim
    • BMB Reports
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    • 제40권4호
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    • pp.554-561
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    • 2007
  • Shen and colleagues (Lin et al., 2004) have recently shown that overexpression of the Drosophila DNA methyltransferase 2 isoform C, dDnmt2c, extended life span of fruit flies, probably due to increased expression of small heat shock proteins such as Hsp22 or Hsp26. Here, I demonstrate with immunoprecipitations that overexpressed dDnmt2c interacts with endogenous Hsp70 protein in vivo in S2 cells. However, its C-terminal half, dDnmt2c(178-345) forms approximately 10-fold more Hsp70-containing protein complexe than wild-type dDnmt2c. Overexpressed dDnmt2c(178-345) but not the full length dDnmt2c is able to increase endogenous mRNA levels of the small heat shock proteins, Hsp26 and Hsp22. I provide evidence that dDnmt2c(178-345) increases Hsp26 promoter activity via two heat shock elements, HSE6 and HSE7. Simultaneously overexpressed Hsp40 or a dominant negative form of heat shock factor abrogates the dDnmt2c(178-345)-dependent increase in Hsp26 transcription. The data support a model in which the activation of heat shock factor normally found as an inactive monomer bound to chaperones is linked to the overexpressed C-terminus of dDnmt2c. Despite the differences observed in flies and S2 cells, these findings provide a possible explanation for the extended lifespan in dDnmt2c-overexpressing flies with increased levels of small heat shock proteins.

Protein Expression Analysis of Halobacillus dabanensis $D-8^T$ Subjected to Salt Shock

  • Feng De Qin;Zhang Bo;Lu Wei Dong;Yang Su Sheng
    • Journal of Microbiology
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    • 제44권4호
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    • pp.369-374
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    • 2006
  • To investigate the mechanism of salt tolerance of gram-positive moderately halophilic bacteria, two-dimensional gel electrophoresis (2-D PAGE) was employed to achieve high resolution maps of proteins of Halobacillus dabanensis $D-8^T$. Approximately 700 spots of proteins were identified from these 2-D PAGE maps. The majority of these proteins had molecular weights between 17.5 and 66 kDa, and most of them were distributed between the isoelectric points (pI) 4.0 and 5.9. Some protein spots were distributed in the more acidic region of the 2-D gel (pI <4.0). This pattern indicated that a number of proteins in the strain $D-8^T$ are acidic. To understand the adaptation mechanisms of moderately halophilic bacteria in response to sudden environmental changes, differential protein profiles of this strain were investigated by 2-D PAGE and $Imagemaster^{TM}$ 2D Platinum software after the cells were subjected to salt shock of 1 to 25% salinity for 5 and 50 min. Analysis showed 59 proteins with an altered level of expression as the result of the exposure to salt shock. Eighteen proteins had increased expression, S proteins were induced, and the expression of 33 proteins was down-regulated. Eight of the up-regulated proteins were identified using MALDI-TOF/MS and MASCOT, and were similar to proteins involved in signal transduction, proteins participating in energy metabolism pathways and proteins involved in stress.