[BOINC] [生命科学类及其他] World Community Grid

vmzy

Planned Maintenance on Saturday, January 6
4 一月 2018          

摘要
We are updating the operating system on our servers on Saturday, January 6, beginning at 2:00 UTC.

We will be applying an important operating system update to our servers on Saturday, January 6, beginning at 2:00 UTC. We anticipate that the work will take approximately four hours.

During this time, volunteers will not be able to upload or download new work. The website will not be accessible during this time. No action is required by volunteers, as devices will automatically retry their connections after the maintenance work is completed.

We appreciate your patience and participation.
大意：
计划于1月6日(周六)早10点开始进行操作系统升级，预计耗时4小时，届时全站离线，不能上传/下载任务。

zhouxiaobo

Computing for Clean Water Results Inspire Further Study
By: The Computing for Clean Water team
22 一月 2018
An international team of researchers was inspired by the Computing for Clean Water project to do a series of further simulations, using a slightly different model and studying the diffusion of oxygen molecules as well as water molecules. Learn about their results, which validated the work done on World Community Grid, in this article.

清水计算结果启发了二次研究
一个国际研究团队受到清水计划项目结果启发，使用了略微不同的模型研究氧分子以及水分子的扩散效应。

vmzy

Planned Maintenance on Monday, February 12
8 二月 2018          

摘要
We are updating the operating system on our servers on Monday, February 12 beginning at 15:00 UTC.

We will be applying an important operating system update to our servers on Monday, February 12, beginning at 15:00 UTC. We anticipate that the work will take approximately four hours.

During this time, volunteers will not be able to upload or download new work, and the website will not be accessible. No action is required by you, as your devices will automatically retry their connections after the maintenance work is completed.

We appreciate your patience and participation.
大意：
计划于2月12号(下周一)晚上11点对操作系统进行升级，预计耗时4小时，届时全站下线，不能上传/下载任务。

zhouxiaobo

FightAIDS@home Has a New Tool and a New Teammate
By: Dr. Arthur Olson
Professor, The Scripps Research Institute
9 二月 2018          

Summary
The FightAIDS@Home project is searching for possible compounds to target the protein shell inside HIV (called the capsid core), which protects the viral RNA. Currently, there are no approved drugs that target this protein shell. In this update, Dr. Olson summarizes the team’s progress to-date, describes a new software tool that will help their work, and introduces us to a new research team member.

FAH项有了新的研究工具及团队成员

FAH项目正在寻找一种可靶向于HIV内、保护病毒RNA的蛋白质壳（称为衣壳核心）化合物。目前，尚无批准的药物靶向这种蛋白质壳。在此次更新中，Olson博士总结了团队迄今为止的进展情况，介绍了一种新的软件工具，以帮助他们开展工作，并向我们介绍一位新的研究团队成员。同时，项目先前大部分成果现在都已经收到，我们现在正在实验性地评估30种最有希望的化合物对抗前两个衣壳部位的过程。预计要花大约四个月时间，并重新启动虚拟筛选工作的第一阶段。

昂宿星团人

2018-03-01: World Community Grid, Planned Maintenance on Monday, March 5

We are performing database updates on our servers on Monday, March 5 beginning at 18:00 UTC.

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2018.03.01 WCG，计划于3月5日（下周一）进行维护
我们计划在雷锋纪念日对我们的服务器数据库进行一次升级，维护大约在北京时间3月6日凌晨2时（世界协调时 3月5日 18:00）开始

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Microbiome Immunity Project Already Extending the Known Universe of Protein Structures
By: Tomasz Kosciolek, PhD
UC San Diego Center for Microbiome Innovation
7 三月 2018

摘要
The Microbiome Immunity Project is off to a great start on predicting the structures of hundreds of thousands of bacterial proteins within the human gut. Read about their progress and their plans in their first project update.

Background

The Microbiome Immunity Project was created to better understand the role of the microbiome in intestinal immune response and diseases such as Type 1 Diabetes (T1D) and Inflammatory Bowel Disease (IBD). In this project, we predict structures of bacterial proteins and use this information to annotate their functions and to understand host-microbiome interactions which are responsible for the pathology of IBD and T1D. This is a massive undertaking, as the human gut microbiome has more than 2 million unique proteins, with hundreds of thousands of proteins potentially interacting with human cells. A project of this scale is only possible thanks to the power of World Community Grid.

Our Progress So Far

With your help, we have already predicted the structures of over 50,000 prioritized proteins! In the grand scheme of the 2 million unique bacterial proteins in our gut, this may not seem like a lot, but keep in mind that the experimental work to date covers only approximately 125,000 proteins. In only 6 months we have made tremendous progress by extending our universe of known protein structures by almost 28 percent!

You may have already realized that at this pace, predicting all bacterial protein structures would take years to complete. Fortunately, we don’t have to predict every single structure, because proteins can be grouped into families. These families consist of proteins with similar structures and functions, enabling a comprehensive understanding of the family’s function with only one representative member per family. Once we identify protein families of interest, we will investigate them in more detail.

In the meantime, we have adjusted our strategy on how to prioritize the predictions. Instead of looking only at bacterial genomes (genes of an individual bacterial species), we are investigating bacterial pangenomes (genes of all bacterial strains belonging to the same species). We then prioritize those pangenomes according to their prevalence between individuals in cohort studies investigating the role of microbiome in IBD and T1D. This approach enables us to have the most impact early in the project. We not only have thorough information on microbes involved in T1D and IBD specifically, but we have also expanded our knowledge of the microbiome in general.

We are now extracting information from your predictions, and during the course of the project we plan to make the data available to the public for other exciting research. We are also working on methods to improve predictions of protein functions, enabling us to find the important protein families involved in T1D and IBD among thousands of predictions we have made so far.

All this progress has been made possible thanks to your generous contributions! There is still a lot to discover about the microbiome, but with each computation that you support we are getting a step closer to having a more detailed picture of this important ecosystem inside each of our bodies and understanding IBD and T1D. So, thank you and let’s continue working together on unraveling the mysteries of microbiome!

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大意：
在您的帮助下，我们已经预测了超过50000个优先蛋白质的结构！在我们肠道中200万种独特的细菌蛋白质的宏大计划中，这似乎并不是很多，但请记住，迄今为止的实验工作只涵盖了大约125000种蛋白质。在短短的6个月内，我们将已知蛋白质结构的范围扩大了近28％，取得了巨大的进展！

您可能已经意识到，按照这个速度，预测所有的细菌蛋白质结构需要数年时间才能完成。幸运的是，我们不必预测每一个结构，因为蛋白质可以分为不同的家族。这些家族由具有相似结构和功能的蛋白质组成，只有每个家族有一名代表成员才能全面了解家族的功能。一旦我们确定了感兴趣的蛋白质家族，我们将更详细地研究它们。

与此同时，我们已经调整了我们的战略，即如何优先考虑预测。而不是只看细菌的基因组（一个细菌物种的基因），我们研究了细菌pangenomes（所有菌株的基因属于同一物种）。然后我们把这些pangenomes根据患病个体之间在队列研究IBD和T1D的微生物的作用。这种方法使我们能够在项目早期发挥最大的影响力。我们不仅详细介绍了T1D和IBD中涉及的微生物，还扩大了对微生物组的了解。

我们现在正在从您的预测中提取信息，并且在项目过程中，我们计划将数据提供给公众进行其他令人兴奋的研究。我们还在研究改进蛋白质功能预测的方法，使我们能够在迄今为止所做的数千次预测中找到涉及T1D和IBD的重要蛋白质家族。

由于您的慷慨捐助使所有这些进展都成为可能！关于微生物群还有很多需要发现的地方，但是在您支持的每一个计算中，我们正在更接近地了解每个人体内这个重要生态系统的细节，并了解IBD和T1D。 所以，谢谢，让我们继续共同努力，揭开微生物组的奥秘！

vmzy

Drug Search for Leishmaniasis Project Continues Quest for Better Treatments
By: Dr. Carlos Muskus López
Coordinator, Molecular Biology and Computational Unit, PECET University of Antioquia
20 三月 2018         

摘要
The Drug Search for Leishmaniasis researchers recently conducted lab testing on 10 compounds. The testing showed that none of the compounds were good potential treatments, and the researchers will turn their attention to additional compounds.



Sandflies, such as the P. papatasi shown above, are responsible for the spread of leishmaniasis.
Short description of the team’s latest findings

Leishmaniasis is one of the most neglected tropical diseases in the world, infecting more than two million people in 98 countries. The current treatments for all forms of leishmaniasis can cause severe side effects, including death. Furthermore, drug resistant parasites are causing major problems in many countries. For these reasons, there is an urgent need for new, safe, and inexpensive drug compounds.

The Drug Search for Leishmaniasis team has continued their lab testing since their last update. The most recent round of testing involved 10 compounds that had been identified as having potential to be safer, more effective treatments.

The compounds were tested first for toxicity, then for effectiveness against two common parasites that can cause leishmaniasis. Based on the testing, none of the compounds tested would be effective treatments for the disease.

The researchers will make these results public, as they have done with their data to-date. This will alert other scientists to the strong possibility that these particular compounds are not effective against leishmaniasis, and help them make decisions about testing other compounds. Once the team has obtained additional funding, they will test additional compounds that may be useful in treating leishmaniasis.

Anyone interested in a full scientific description of this latest round of testing can read below. Thanks to everyone who supported this project.

In vitro evaluation of the anti-leishmanial activity of predicted molecules by docking

In order to determine if in silico predicted molecules with potential leishmanicidal activity could have the possibility of passing to in vivo assays, the molecules must first pass cytotoxicity testing against human cells in vitro. Then, those molecules that show low or no cytotoxicity are evaluated for parasite growth inhibition in human macrophages and the effective concentration 50 (EC50). The EC50 is the concentration of a molecule that kills 50% of the parasites in vitro.

Evaluation of Cytotoxicity
The cytotoxic activity of the compounds was evaluated on the human cell line U937 (CRL-1593-2 ™ of ATCC). For the evaluations, the cells were used in logarithmic phase of growth and were cultured in 96-well culture plates, at a concentration of 100,000 cells/mL for U937 in RPMI-1640 medium supplemented with 10% fetal bovine serum (SFB) and 1% antibiotics (penicillin-streptomycin) (Sigma). Six serial dilutions prepared from each of the following concentrations: 200 - 100 - 50 - 25.0 and 1 μg / mL were made according to the compound to be evaluated. The cells were incubated at 37°C with 5% CO2 for 72 hours in the presence of the compounds and, subsequently, the effect was determined using the MTT enzyme method. This method uses a dye which live cells metabolize reducing the coloring, which is measured as "Optical Density" (OD).  The plates were incubated at room temperature for another 30 minutes and the formazan production (change of color) was measured at 570 nm in a spectrophotometer. As a control of viability, cells cultured under the same incubation conditions were used in the absence of the compounds. Doxorubicin was used as cytotoxicity control.

The cytotoxicity was determined according to the percentage of decrease in viability and therefore, of the decrease in the number of cells obtained for each compound and doxorubicin, according to the OD values obtained in each experimental condition. The decrease in cell viability, was calculated using the OD values €‹for each condition, i.e., compound or control at the evaluated concentration, using the following equation: % Viability = [OD cells exposed to the compound or control cell / OD cells not exposed] × 100). The values €‹of OD obtained for the cells in the absence of compounds correspond to 100% viability or live cells. Then, with the viability percentages, the mortality percentage was calculated, which corresponds to 100% viability. With the mortality percentages, lethal concentration 50 (LC50) was calculated by the Probit3 program. The cytotoxicity of each compound was classified according to the LC50 values €‹using a proprietary scale: high cytotoxicity LC50 <50 μg/mL; moderate cytotoxicity: 50 < LC50 < 200 μg/mL and low cytotoxicity: LC50> 200 μg/mL.

Table 1 shows the results of cytotoxicity, where it is observed that one compound showed low cytotoxicity while three had moderate cytotoxicity for the U937 human cell line. As expected, doxorubicin, included as a toxicity control, showed high cytotoxicity.



                            Table 1.Evaluation of the in vitro cytotoxicity

Name of Product	CL50 (µg/ml) X + SD
	Cellular Line U-937            Toxicity Level
ZINC12005520	16.5 ± 0.8                                            High
ZINC16626805	135.7 ± 2.9                                  Moderate
ZINC17135526	12.8 ± 1.8                                            High
ZINC08598759	3.4 ± 0.8                                              High
ZINC32951205	3.7 ± 1.3                                              High
ZINC32951223	27.1 ± 6.1                                            High
ZINC08587552	0.5 ± 0.6                                              High
ZINC08971918	65.6 ± 7.4                                    Moderate
ZINC04777075	>200                                                   Low
ZINC18222288	53.8 ± 3.0                                    Moderate
Doxorubicin (Control)	0.5 ± 0.1                                              High

Evaluation of Anti-Leishmanial Activity
Prior to the determination of the effective concentration 50 (EC50), all the compounds were pre-selected, by evaluating the effect on the percentage of infection in intracellular amastigotes in the U-937 cell line compared with amastigotes controls, in the absence of the compound.

In this test of leishmanicidal activity in vitro, the fluorescent strains of Leishmania panamensis (UA140-pIR (-) - eGFP) and Leishmania braziliensis (UA301-pIR (-) - eGFP) were used.

The activity of the compounds was evaluated on intracellular parasites (amastigote stage) obtained after in vitro infection of macrophages. The U-937 cells were infected with fluorescent promastigotes in stationary growth phase in a 30:1 parasite:cell ratio for the Leishmania panamensis UA140 strain and 20:1 for Leishmania braziliensis UA301 strain. The infected cells were exposed different concentration of the compounds for 72 hours (see the concentrations used for each compound, in a note below the Table 2).  As infection control, infected cells were used in the absence of the compounds, and amphotericin B was used as a positive control. After 72 hours of incubation, the cells were carefully removed from the bottom of the dish and analyzed in a flow cytometer, reading at 488 nm excitation and 525 nm emission with an Argon4 laser.

The anti-Leishmania activity was determined based on the parasite load, which is the number of parasites in the infected cells exposed to the concentration selected for each compound or amphotericin B. The decrease in parasite load, called inhibition of infection was calculated using the fluorescence mean intensity values €‹(MFI) and using the following formula: % Infection = [MFI cells infected and exposed to the compound or amphotericin B / MFI infected of unexposed cells] × 100). The MFI values ‹obtained for the infected cells in the absence of drug or compound corresponds to 100% of the infection. In turn, the percentage of inhibition of the infection corresponds to 100% of the infection -% infection in the presence of the compound.

Table 2. Evaluation of the percentage of inhibition obtained with the tested compounds in intracellular parasites.

Name of Product	% Inhibition X + SD
	L. panamensis UA140	L. braziliensis UA301
ZINC12005520	19.0 ± 3.0	2.6 ± 0.5
ZINC16626805	0	17.3 ± 6.5
ZINC08598759	12.3 ± 1.9	38.6 ± 1.2
ZINC32951205	8.0 ± 0.9	29.4 ± 6.6
ZINC32951223	1.2 ± 0.4	0
ZINC08587552	6.6 ± 3.3	0.3 ± 0.5
ZINC08971918	0	3.0 ± 5.9
ZINC04777075	0	33.4 ± 4.2
ZINC18222288	0	14.3 ± 5.0
Amphotericin B-Control	75.9 ± 5.5	71.6 ± 5.1

The EC50 was not determined for any of the molecules, because none of the compounds showed an inhibition percentage greater than 50% in the two Leishmania species used (See Table 2).

Conclusion
None of the 10 molecules evaluated showed promising anti-leishmanial results based on the in vitro cytotoxicity inhibition assays. And given this, the EC50 was not evaluated.
大意：
DSFL对项目筛选出的10个潜在分子进行了实验室测试，全军覆没。

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By: Dr. Anna Croft
University of Nottingham, UK
29 三月 2018          

摘要
The Help Stop TB researchers are looking to expand their team as they analyze the large amount of data generated by World Community Grid. Read about their plans in this update.


Dr. Athina Meletiou (pictured above speaking about the Help Stop TB project) recently completed her PhD and has begun a new position. We wish her the best of luck, and thank her for her work on the project.

Background

Tuberculosis remains one the world’s major killers from infectious disease. The World Health Organization announced in a recent report that 6.3 million new cases of TB were reported in 2016, up from 6.1 million in 2015.

Tuberculosis can be difficult to treat because the bacterium which causes the disease has an unusual coating which protects it from many drugs and from a person’s immune system. Among the fats, sugars and proteins in this coat, the TB bacterium contains a type of fatty molecules called mycolic acids. The Help Stop TB (HSTB) project simulates the behavior of these molecules to better understand how they offer protection to the TB bacteria. With the resulting information, scientists may be able to design better ways to attack this protective layer and therefore develop better treatments for this deadly disease.

Congratulations and Changes

Since our last update, we’ve been undergoing further changes to the project team.

Athina Meletiou is now Dr. Athina Meletiou, having successfully passed her PhD viva (oral examination). She has taken up an EU-funded postdoctoral fellowship working on another large data project of one of our colleagues at University of Nottingham, Professor Charles Laughton, “Advanced multiscale simulation of DNA.”

Athina will still be touching base, as we will be preparing publications from her work in the near future. In the meantime, we wish her well with her next step in her career, with many thanks for the hard work she has put into the HSTB project to grow it into the success it has been so far.

The Search for New Team Members

As a result of Athina’s move, we are now actively looking for new team members, especially those with a strong interest in data science, as we now have a significant quantity of data to mine, for which we would love to apply new approaches. We also want to tackle the development of accurate membrane models, now that we have sufficient atomistic data. Applications from suitably qualified chemists, biochemists, mathematicians, engineers, and computer scientists are welcomed, both for PhD-level and postdoctoral posts.

Our opportunities include a BBSRC-funded PhD studentship available to UK/EU applicants (with applications for 2019 start to open later this year), and we have the possibility to support exceptionally talented potential students through our local PhD scholarships scheme for a start this year.

We are also happy to help support qualified applicants through our fellowships processes--these include applications for the prestigious EU-funded Marie Skłodowska-Curie fellowships, and local Nottingham Research fellowships or Anne-McLaren fellowships (see our website for details) alongside those from the learned societies.

If you have the drive and the skills to join us, please get in touch.


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背景：

结核病仍然是世界传染病的主要杀手之一。世界卫生组织在最近的一份报告中宣布2016年新增630万例TB，比2015年的610万增加。

结核病可能难以治疗，因为导致疾病的细菌有一种不寻常的涂层，可以保护它免受许多药物和人体免疫系统的伤害。
在这种脂肪中，糖和蛋白质作为外壳，TB细菌含有一种称为分枝菌酸的脂肪分子。
帮助遏制结核病（HSTB）项目模拟这些分子的行为，以更好地了解它们如何为结核菌提供保护。
有了这些信息，科学家们可以设计出更好的方法来攻击这种保护层，从而为这种致命的疾病开发更好的治疗方法。


大意：

由于 Athina Meletiou 博士跳槽了，我们需要寻找新的团队成员，尤其是那些对数据科学有浓厚兴趣的团队成员。
欢迎来自化学家，生物化学家，数学家，工程师和计算机科学家的申请，无论是博士还是博士后。

vmzy

Announcing Three Winning Climate Change Projects
26 四月 2018         

摘要
After a rigorous review of dozens of applications from all over the world, we're excited to announce the research groups who will receive supercomputing power, weather data, and cloud storage from IBM to accelerate climate change science.



As our planet faces the mounting impacts of climate change, scientists are on the front lines of understanding complex consequences and developing solutions.

We've heard from climate change scientists that common bottlenecks they face include limited access to weather data, and insufficient computing power and data storage capacity to accurately simulate the impacts of climate change.

These are some of the reasons why IBM Corporate Citizenship recently invited scientists to apply for grants of massive computing power from World Community Grid, meteorological data from The Weather Company, and data storage from IBM Cloud Object Storage to support their climate change or environmental research projects. (More information about these IBM resources can be found here.)

As a result of this call for proposals, we received more than 70 responses from researchers all over the world. We're thrilled to announce the winners of these resources:

Impact of climate change on public health (Emory University, USA)
This project will examine the impact of climate change on temperature and air pollution at local levels, helping researchers understand the impact of a changing climate on human health.

Impact of atmospheric aerosols on climate change (Far Eastern Federal University, Russia)
Atmospheric aerosols, such as dust, smoke and pollution, both absorb and reflect sunlight in the atmosphere, and represent the greatest area of uncertainty in climate science today, according to the UN Intergovernmental Panel on Climate Change (IPCC). This project aims to determine how super-micron particles (6 to 12 micrometers in diameter) interact with sunlight and how they contribute to atmospheric temperatures--information that will improve the accuracy of climate models.

Rainfall modeling in Africa (Delft University of Technology, Netherlands)
In Africa, agriculture relies heavily on localized rainfall, which is difficult to predict. In collaboration with the Trans-African Hydro-Meteorological Observatory, which aims to develop a vast network of weather stations across Africa, researchers will simulate rainfall on the continent. Such information could help farmers be more resilient, among other weather and hydrology applications.


These proposals were evaluated by IBM scientists and an outside team of experts for scientific merit, potential to contribute to the global community's understanding of specific climate and environmental challenges, and the capacity of the research team to manage a sustained research project. Researchers also agreed, if they received these resources, to abide by our open data policy by publicly releasing the data from their collaboration with us.

In the coming months, we'll be updating everyone as we get ready to launch these projects. In the meantime, current World Community Grid volunteers who want to support these projects as soon as they start can go to the My Projects page to opt in to new projects as they become available.

If you’re not yet a World Community Grid volunteer, you can sign up to be notified as soon as the first of these three projects is launched. You can also join World Community Grid right now and support our existing projects.

Thanks to everyone for your support and stay tuned for further news!
大意：
审核通过了三个新的气候类项目，接下来几个月会逐步上线。

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By: The FightAIDS@home research team
22 五月 2018         

摘要
The FightAIDS@Home – Phase 2 researchers are making plans to write a paper and to test new compounds as part of the continuing search for new and better treatments.

Background

Researchers all over the world have been making advances in the battle against HIV/AIDS for many years. However, AIDS-related complications still affect far too many people. UNAIDS estimates that 36.7 million people were living with HIV in 2016. And while AIDS-related deaths have decreased significantly since their peak in 2005, approximately 1 million people died of causes related to AIDS in 2016. (See the UNAIDS website for more statistics.)

HIV continues to be a challenge because it quickly mutates in ways that make existing drug treatments ineffective. FightAIDS@Home joined World Community Grid more than a decade ago with the simple but challenging goal of finding new treatments for HIV. During Phase 1 of the project, the team identified thousands of potentially promising candidates to be confirmed experimentally in the lab. However, because it’s cost and time prohibitive to lab test all the potential candidates, Phase 2 was created to prioritize the candidate compounds by evaluating them with more accurate methods.

Current Work

Our team is processing the current type of work units through World Community Grid as quickly as possible. Once these work units are completed, we plan to write a paper about the process, including its strengths, limitations, and lessons learned.

We are also planning to use World Community Grid’s computing power to analyze new compounds that are important to our work with the HIVE Center at the Scripps Research Institute. This work will begin after we run a sample of these new compounds on our own grid computing network.

Thank You

We appreciate everyone who continues to donate their computing power to the search for better anti-HIV treatments. We also encourage everyone to opt in to Phase 2 of the project—the more quickly we can run through the current work units, the sooner we can move ahead to new compounds.
----------------------------------------------------------------------

大意：
我们将通过WCG尽快处理完当前的工作，并将处理过程撰写成论文，包括其优势，局限性和经验教训。
我们还计划利用WCG的计算能力来分析对我们与斯克里普斯（Scripps）研究所HIVE中心合作研究的非常重要的新化合物。
这项工作将在我们自己的网格计算网络上运行这些新化合物的样本后开始。

致谢：
我们感谢每一个继续捐赠他们的计算能力的人，以寻求更好的抗HIV治疗。 我们也鼓励大家选择进入项目的第二阶段 - 帮助我们可以更快地完成目前的工作，使我们可以更早的进入新化合物阶段的研究。

0xCAFEBABE

31 五月 2018         

摘要
We are updating the operating system on our servers on Monday, June 4, beginning at 15:00 UTC.

We will be applying an important operating system update to our servers on Monday, June 4, beginning at 15:00 UTC. We anticipate that the work will take approximately four hours.

During this time, volunteers will not be able to upload or download new work, and the website will not be accessible. No action is required by you, as your devices will automatically retry their connections after the maintenance work is completed.

We appreciate your patience and participation.



大意：
计划在 2018年6月4日15:00UTC - 19:00UTC（北京时间2018/6/4 23:00 - 2018/6/5 03:00）给服务器的操作系统打补丁。
维护期间客户端无法上传或下载任务，维护完成后服务会自动恢复，不需要捐赠者做任何操作。
感谢支持。

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By: Dr. Akira Nakagawara, MD, PhD
CEO of the Saga Medical Center KOSEIKAN and President Emeritus, Chiba Cancer Center
5 六月 2018

摘要
The Smash Childhood Cancer research team recently chose several new target molecules as the focus of their current work. Learn more about the significance of these molecules in this update.

Almost a year and a half has passed since we kicked off the Smash Childhood Cancer project. On behalf of all the team members, I really appreciate volunteers' contributions to this project.

By adding new members to the original group from the Help Fight Childhood Cancer project, our research team for Smash Childhood Cancer has become quite international, with pediatricians from Japan, Hong Kong, and the United States involved in this big, new drug development project.

While the Help Fight Childhood Cancer project's goal was to search for new and better treatments for neuroblastoma, Smash Childhood Cancer addresses not only neuroblastoma, but other childhood cancers such as brain tumors, osteosarcoma (bone cancer), germ cell tumors, hepatoblastoma (liver cancer), and others.

Several proteins--beta-catenin, LIN28B , N-CYM and others--have been newly chosen as target molecules. The structures of the beta-catenin and LIN28B proteins have been determined, so in silico screening for these has been started, looking for high binding affinity compounds from a library of more than 3 million small molecules.

The N-CYM protein, which was discovered by my team and myself, is the novel driving gene product of neuroblastoma. The protein is only found in humans and chimpanzees, and is created through de novo evolution (meaning it is part of the evolution of the cancer). The protein is quite difficult to crystallize for some reason and we are still working on determining its exact structure so that drug discovery against it could begin.

Recently, we received a grant from Japanese government to support our drug discovery against the LIN28B protein, which may help accelerate our progress on Smash Childhood Cancer.

Once again, I would like to express our gratitude for volunteers all over the world who have been supporting the project. For children who are fighting childhood cancer, we would like to discover a new drug as soon as possible and develop a treatment without subsequent side effects.

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机翻：

儿童癌症研究小组最近选择了几个新的靶分子作为他们当前工作的重点。了解更多关于这些分子在这次更新中的意义。

自从我们开始 SCC 项目以来，将近一年半的时间过去了。我代表所有的团队成员，非常感谢志愿者对这个项目的贡献。

我们 SCC 的项目已经相当国际化，团队中加入了来自日本、香港儿科医生和美国的成员参与新药研发的项目。

虽然 SCC 项目的目标是寻找新的和更好的神经母细胞瘤治疗方法，粉碎儿童癌症不仅涉及神经母细胞瘤，还包括其他儿童癌症，如脑肿瘤、骨肉瘤（骨癌）、生殖细胞肿瘤、肝母细胞瘤（肝癌），以及其他。

β-连环蛋白、Ln8B、N-CYM等蛋白质已被新选择为目标分子。β-连环蛋白和Len8B蛋白的结构已被确定，因此在硅片上对这些进行了筛选，从300万个小分子库中寻找高结合亲和力化合物。

Ni-Cym蛋白是我和我团队发现的神经母细胞瘤新的驱动基因产物。这种蛋白质只存在于人类和黑猩猩中，是通过从头进化而产生的（这意味着它是癌症进化的一部分）。由于某种原因，这种蛋白质很难结晶，我们仍在努力确定其确切的结构，从而开始研发对抗它的药物。

最近，我们收到了来自日本政府的资助，以支持我们的药物发现对LI28 B蛋白，这将有助于加速 SCC 项目的进展。

再一次，我要向全世界的志愿者们表达我们的感激之情。对于那些正在抗击儿童癌症的儿童，我们希望尽快发现一种新药，并开发一种无副作用的治疗方法。

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大意：
团队中新加入了来自日本、香港儿科医生和美国的成员参与新药研发的项目。
最近的工作重点是选择了几个新的靶向分子进行研究。
非常感谢志愿者对项目的贡献。

vmzy

Planned Maintenance on Thursday, June 14
12 六月 2018         

摘要
We are updating the storage system on our servers on Thursday, June 14, beginning at 15:00 UTC.

We will be applying an important storage system update to our servers on Thursday, June 14, beginning at 15:00 UTC. We anticipate that the work will take approximately four hours.

During this time, volunteers will not be able to upload or download new work. No action is required by you, as your devices will automatically retry their connections after the maintenance work is completed.

We appreciate your patience and participation.大意：
计划于北京时间6月14号(周四)晚23点对存储系统进行升级，大概耗时4个小时。届时将暂停任务上传/下载。

vmzy

Planned Maintenance on Tuesday, June 26
25 六月 2018          

摘要
We are updating the operating system on our servers on Tuesday, June 26, beginning at 18:00 UTC.

We will be applying an important operating system update to our servers on Tuesday, June 26, beginning at 18:00 UTC. We anticipate that the work will take approximately four hours.

During this time, volunteers will not be able to upload or download new work, and the World Community Grid website will not be accessible. No action is required by you, as your devices will automatically retry their connections after the maintenance work is completed.

We appreciate your patience and participation.
大意：
计划于北京时间6月27号(周三)凌晨2点对操作系统进行升级，预计耗时4小时左右，届时全站下线。

vmzy

Planned Maintenance on Tuesday, July 10  
5 七月 2018          

摘要
We are updating the operating system on our servers on Tuesday, July 10, beginning at 14:00 UTC.

We will be applying an important operating system update to our servers on Tuesday, July 10, beginning at 14:00 UTC. We anticipate that the work will take approximately four hours.

During this time, volunteers will not be able to upload or download new work, and the World Community Grid website will not be accessible. No action is required by you, as your devices will automatically retry their connections after the maintenance work is completed.

We appreciate your patience and participation.
大意：
计划于北京时间7月10号(周二)晚22点对操作系统进行升级，预计耗时4小时左右，届时全站下线。