DNA-encoded chemical library(DEL)links the power of amplifiable genetics and the nonself-replicating chemical phenotypes,generating a diverse chemical world.In analogy with the biological world,the DEL world can evolv...DNA-encoded chemical library(DEL)links the power of amplifiable genetics and the nonself-replicating chemical phenotypes,generating a diverse chemical world.In analogy with the biological world,the DEL world can evolve by using a chemical central dogma,wherein DNA replicates using the PCR reactions to amplify the genetic codes,DNA sequencing transcripts the genetic information,and DNA-compatible synthesis translates into chemical phenotypes.Importantly,DNA-compatible synthesis is the key to expanding the DEL chemical space.Besides,the evolution-driven selection system pushes the chemicals to evolve under the selective pressure,i.e.,desired selection strategies.In this perspective,we summarized recent advances in expanding DEL synthetic toolbox and panning strategies,which will shed light on the drug discovery harnessing in vitro evolution of chemicals via DEL.展开更多
Exercise is a potent force of nature with significant potential for extending longevity and boosting physical fitness. It is also be- ing increasingly used as a prophylactic and curative measure for various physical a...Exercise is a potent force of nature with significant potential for extending longevity and boosting physical fitness. It is also be- ing increasingly used as a prophylactic and curative measure for various physical ailments, such as cardiovascular diseases and diabetes.展开更多
Constant escalations in the number of diabetics worldwide and the failure of conventional therapy to restore normoglycemia without adverse effects,in spite of tremendous strides in modern medicine,calls for naturopath...Constant escalations in the number of diabetics worldwide and the failure of conventional therapy to restore normoglycemia without adverse effects,in spite of tremendous strides in modern medicine,calls for naturopathy and alternative medicine.Because diabetes is multi-factorial and has secondary complications,prevention of hyperglycemia is the central dogma for its management.To date,no oral hypoglycemic exists which can achieve tight glycemic control without side effects.Dietary adjuncts,lifestyle interventions and a resurgence of interest in phyto-therapy have consequently gained ground.Natural hypoglycemics have attracted attention due to ease of incorporation in everyday diet,affordability,less adverse effects,and long term safety.Ethno botanical literature reports more than 800 anti-diabetic plants species.Eucalyptus is well represented in the Aboriginal Pharmacopoeias for its various pharmacological activities.Its hot aqueous decoction has been used as a hypoglycemic in various regions of world.This editorial attempts to summarize the data on the hypoglycemic potential of the different eucalyptus species,highlight the value of its natural biomolecules for the prophylaxis and treatment of type2 diabetes,describe their mechanistic actions,shed light on the posology and safety aspects of eucalyptusand assess its applicability as a reinforcement to currently used therapy.展开更多
Predicting the stages of cancer accurately is crucial for effective treatment planning. In this study, we aimed to develop a model using gene expression data and XGBoost (eXtreme Gradient Boosting) that include clinic...Predicting the stages of cancer accurately is crucial for effective treatment planning. In this study, we aimed to develop a model using gene expression data and XGBoost (eXtreme Gradient Boosting) that include clinical and demographic variables to predict specific lung cancer stages in patients. By conducting the feature selection using the Wilcoxon Rank Test, we picked the most impactful genes associated with lung cancer stage prediction. Our model achieved an overall accuracy of 82% in classifying lung cancer stages according to patients’ gene expression data. These findings demonstrate the potential of gene expression analysis and machine learning techniques in improving the accuracy of lung cancer stage prediction, aiding in personalized treatment decisions.展开更多
The central dogma(CD)of molecular biology is the transfer of genetic information from DNA to RNA to protein.Major CD processes governing genetic flow include the cell cycle,DNA replication,chromosome packaging,epigene...The central dogma(CD)of molecular biology is the transfer of genetic information from DNA to RNA to protein.Major CD processes governing genetic flow include the cell cycle,DNA replication,chromosome packaging,epigenetic changes,transcription,posttranscriptional alterations,translation,and posttranslational modifications.The CD processes are tightly regulated in plants to maintain genetic integrity throughout the life cycle and to pass genetic materials to next generation.Engineering of various CD processes involved in gene regulation will accelerate crop improvement to feed the growing world population.CRISPR technology enables programmable editing of CD processes to alter DNA,RNA,or protein,which would have been impossible in the past.Here,an overview of recent advancements in CRISPR tool development and CRISPR-based CD modulations that expedite basic and applied plant research is provided.Furthermore,CRISPR applications in major thriving areas of research,such as gene discovery(allele mining and cryptic gene activation),introgression(de novo domestication and haploid induction),and application of desired traits beneficial to farmers or consumers(biotic/abiotic stress-resilient crops,plant cell factories,and delayed senescence),are described.Finally,the global regulatory policies,challenges,and prospects for CRISPR-mediated crop improvement are discussed.展开更多
As a result of substitution of capital for labor in agriculture and rigid demand of urban sectors for migrant workers,the rural-to-urban migration becomes irreversible process,and Todaro dogma,which aims to limit the ...As a result of substitution of capital for labor in agriculture and rigid demand of urban sectors for migrant workers,the rural-to-urban migration becomes irreversible process,and Todaro dogma,which aims to limit the migration under the assmnption of "come-and-go" migration pattern,becomes and old-fashioned theory for policy-making.By empirically confirming the advent of the Lewis turning poing-namely,a new stage of labor migration and more generally of economic development,the paper reveals the policy implication of the Lewis turning point and proposes the policy reforms needed for a complete urbanization,including hukou system reform and equalization of public services.展开更多
The normal development and optimal functioning of the brain requires a vigilant immune surveillance system to detect and remove potential risk factors and prevent infection and tissue damage. Microglia are the residen...The normal development and optimal functioning of the brain requires a vigilant immune surveillance system to detect and remove potential risk factors and prevent infection and tissue damage. Microglia are the resident immune cells and the frontline defenders responsible for the immune response of the brain. Resting microglia possess a ramified morphology with numerous thin processes that continuously sample the environment. In response to inflammatory signals, microglia become activated and transform their morphology into a thick, amoeboid-like shape. Activated microglia proliferate, tolerate to sites of iniurv,展开更多
Editor’s Note: In the early 1980s, some graduates of the prestigious Central Conservatory of Music began their musical careers. When one such graduate, Tan Dun, was awarded an Oscar in 1999 for his musical score to t...Editor’s Note: In the early 1980s, some graduates of the prestigious Central Conservatory of Music began their musical careers. When one such graduate, Tan Dun, was awarded an Oscar in 1999 for his musical score to the film Crouching Tiger, Hidden Dragon, well-known Chinese composer Chen Qigang, now resident in France, wrote a letter of congratulations to his former classmate. He said, "Ours was a class of student nonentities until we rocked China and then the world. We ’lit beacons’ in different parts of the world. Whether friends or rivals, our influence on each other is symbiotic. Now, when people call me ’master,’ I can’t help remembering being one of eight classmates, all sharing an hotel room in Amsterdam." At the end of his letter Chen Qigang wrote, "Our horizons are broadening."This article gives an insight into artists who were young during the "cultural revolution, " and the impressions of European and American music circles they gained from their experience abroad.展开更多
This paper has researched on six kinds of the corporate DNA models, which have set up and analyzed its limitations, regarded the corporation as a vital organism, and put forward the judging standard for corporate DNA ...This paper has researched on six kinds of the corporate DNA models, which have set up and analyzed its limitations, regarded the corporation as a vital organism, and put forward the judging standard for corporate DNA by analogism. According to the standard, the components of the corporate DNA are judged and a new model has been established. The corporate DNA is composed of four DNA chains, which overlap and intercross in the model. Based on the new model, the concept of the corporate central dogma is put forward. The element and information transmission way of corporate information are discussed in the corporate central dogma.展开更多
The 'central dogma 'of molecular biology indicated that the direction of the genetic information flow is from DNA - RNA - protein. However, up to now, the central dogma has not obtained a sufficient theoretica...The 'central dogma 'of molecular biology indicated that the direction of the genetic information flow is from DNA - RNA - protein. However, up to now, the central dogma has not obtained a sufficient theoretical support from cybernetics and information theory. In addition, some special cases in biology, such as, although the scrapie prion is irreversibly inactivated by alkali, five procedures with more specificity for modifying nucleic acids failed to cause inactivation and when a resting cell is activated by some factors and division occurs, protein synthesis has begun before DNA synthesis etc., are also very difficult to explain clearly by the central dogma. A broad outline of a mechanism for reverse translation can easily be 'designed', based on the normal translation process, and this serves both to prove that there is no fundamental theoretical reason for the central dogma, and to illustrate why the redundancy of genetic code is not a problem.This paper, based on some previous research work of authors, from the view of cybernetics, information theory and theoretical biology, explored the possibility of protein as a genetic information carrier, the probable pairing ways between ammo acids-codons, and the direction of genetic information flows etc., at theory, by comparing and analyzing theoretically the characteristics of information carriers existing in DNA and protein. The authors inferred that perhaps protein may join the informational transferring as a genetic information carrier; the direction of genetic information flows, besides the way described by the central dogma, seem also to have another type, that is, genetic information flowing from protein - DNA (RNA) - protein, which also includes the genetic information flow in the central dogma. Undoubtedly, the research on problems about the position and roles of protein during the genetic information transferring will have an important effect on the investigation and development of molecular biology, molecular genetics and gene engineering.展开更多
基金Financial support was provided by the National Natural Science Foundation of China(grant numbers 22177073,21977070,21907085,and U19A2011)the Natural Science Foundation of Shanghai,China(grant numbers 21ZR1442900 and 23ZR1437600)+2 种基金the Natural Science Foundation of Zhejiang Province,China(grant number LY22H300001)Shanghai Frontiers Science Center of Degeneration and Regeneration in Skeletal SystemShanghai Key Laboratory of Orthopedic Implants(grant number KFKT202207,China)for financial support.
文摘DNA-encoded chemical library(DEL)links the power of amplifiable genetics and the nonself-replicating chemical phenotypes,generating a diverse chemical world.In analogy with the biological world,the DEL world can evolve by using a chemical central dogma,wherein DNA replicates using the PCR reactions to amplify the genetic codes,DNA sequencing transcripts the genetic information,and DNA-compatible synthesis translates into chemical phenotypes.Importantly,DNA-compatible synthesis is the key to expanding the DEL chemical space.Besides,the evolution-driven selection system pushes the chemicals to evolve under the selective pressure,i.e.,desired selection strategies.In this perspective,we summarized recent advances in expanding DEL synthetic toolbox and panning strategies,which will shed light on the drug discovery harnessing in vitro evolution of chemicals via DEL.
文摘Exercise is a potent force of nature with significant potential for extending longevity and boosting physical fitness. It is also be- ing increasingly used as a prophylactic and curative measure for various physical ailments, such as cardiovascular diseases and diabetes.
文摘Constant escalations in the number of diabetics worldwide and the failure of conventional therapy to restore normoglycemia without adverse effects,in spite of tremendous strides in modern medicine,calls for naturopathy and alternative medicine.Because diabetes is multi-factorial and has secondary complications,prevention of hyperglycemia is the central dogma for its management.To date,no oral hypoglycemic exists which can achieve tight glycemic control without side effects.Dietary adjuncts,lifestyle interventions and a resurgence of interest in phyto-therapy have consequently gained ground.Natural hypoglycemics have attracted attention due to ease of incorporation in everyday diet,affordability,less adverse effects,and long term safety.Ethno botanical literature reports more than 800 anti-diabetic plants species.Eucalyptus is well represented in the Aboriginal Pharmacopoeias for its various pharmacological activities.Its hot aqueous decoction has been used as a hypoglycemic in various regions of world.This editorial attempts to summarize the data on the hypoglycemic potential of the different eucalyptus species,highlight the value of its natural biomolecules for the prophylaxis and treatment of type2 diabetes,describe their mechanistic actions,shed light on the posology and safety aspects of eucalyptusand assess its applicability as a reinforcement to currently used therapy.
文摘Predicting the stages of cancer accurately is crucial for effective treatment planning. In this study, we aimed to develop a model using gene expression data and XGBoost (eXtreme Gradient Boosting) that include clinical and demographic variables to predict specific lung cancer stages in patients. By conducting the feature selection using the Wilcoxon Rank Test, we picked the most impactful genes associated with lung cancer stage prediction. Our model achieved an overall accuracy of 82% in classifying lung cancer stages according to patients’ gene expression data. These findings demonstrate the potential of gene expression analysis and machine learning techniques in improving the accuracy of lung cancer stage prediction, aiding in personalized treatment decisions.
基金This work was supported by the National Research Foundation of Korea(grants NRF 2020M3A9I4038352,2020R1A6A1A03044344)by the Next-Generation BioGreen 21 Program(SSAC,grant PJ01322601)the Program for New Plant Breeding Techniques(NBT,grant PJ01478401),Rural Development Administration,Korea.
文摘The central dogma(CD)of molecular biology is the transfer of genetic information from DNA to RNA to protein.Major CD processes governing genetic flow include the cell cycle,DNA replication,chromosome packaging,epigenetic changes,transcription,posttranscriptional alterations,translation,and posttranslational modifications.The CD processes are tightly regulated in plants to maintain genetic integrity throughout the life cycle and to pass genetic materials to next generation.Engineering of various CD processes involved in gene regulation will accelerate crop improvement to feed the growing world population.CRISPR technology enables programmable editing of CD processes to alter DNA,RNA,or protein,which would have been impossible in the past.Here,an overview of recent advancements in CRISPR tool development and CRISPR-based CD modulations that expedite basic and applied plant research is provided.Furthermore,CRISPR applications in major thriving areas of research,such as gene discovery(allele mining and cryptic gene activation),introgression(de novo domestication and haploid induction),and application of desired traits beneficial to farmers or consumers(biotic/abiotic stress-resilient crops,plant cell factories,and delayed senescence),are described.Finally,the global regulatory policies,challenges,and prospects for CRISPR-mediated crop improvement are discussed.
文摘As a result of substitution of capital for labor in agriculture and rigid demand of urban sectors for migrant workers,the rural-to-urban migration becomes irreversible process,and Todaro dogma,which aims to limit the migration under the assmnption of "come-and-go" migration pattern,becomes and old-fashioned theory for policy-making.By empirically confirming the advent of the Lewis turning poing-namely,a new stage of labor migration and more generally of economic development,the paper reveals the policy implication of the Lewis turning point and proposes the policy reforms needed for a complete urbanization,including hukou system reform and equalization of public services.
基金supported by the Bio&Medical Technology Development Program of the National Research Foundation of Korea(NRF)grant(No.2012M3A9C6049935)the DGIST Convergence Science Center Program(15-BD-04)of the Ministry of Science,ICT and Future Planning of Korea
文摘The normal development and optimal functioning of the brain requires a vigilant immune surveillance system to detect and remove potential risk factors and prevent infection and tissue damage. Microglia are the resident immune cells and the frontline defenders responsible for the immune response of the brain. Resting microglia possess a ramified morphology with numerous thin processes that continuously sample the environment. In response to inflammatory signals, microglia become activated and transform their morphology into a thick, amoeboid-like shape. Activated microglia proliferate, tolerate to sites of iniurv,
文摘Editor’s Note: In the early 1980s, some graduates of the prestigious Central Conservatory of Music began their musical careers. When one such graduate, Tan Dun, was awarded an Oscar in 1999 for his musical score to the film Crouching Tiger, Hidden Dragon, well-known Chinese composer Chen Qigang, now resident in France, wrote a letter of congratulations to his former classmate. He said, "Ours was a class of student nonentities until we rocked China and then the world. We ’lit beacons’ in different parts of the world. Whether friends or rivals, our influence on each other is symbiotic. Now, when people call me ’master,’ I can’t help remembering being one of eight classmates, all sharing an hotel room in Amsterdam." At the end of his letter Chen Qigang wrote, "Our horizons are broadening."This article gives an insight into artists who were young during the "cultural revolution, " and the impressions of European and American music circles they gained from their experience abroad.
文摘This paper has researched on six kinds of the corporate DNA models, which have set up and analyzed its limitations, regarded the corporation as a vital organism, and put forward the judging standard for corporate DNA by analogism. According to the standard, the components of the corporate DNA are judged and a new model has been established. The corporate DNA is composed of four DNA chains, which overlap and intercross in the model. Based on the new model, the concept of the corporate central dogma is put forward. The element and information transmission way of corporate information are discussed in the corporate central dogma.
文摘The 'central dogma 'of molecular biology indicated that the direction of the genetic information flow is from DNA - RNA - protein. However, up to now, the central dogma has not obtained a sufficient theoretical support from cybernetics and information theory. In addition, some special cases in biology, such as, although the scrapie prion is irreversibly inactivated by alkali, five procedures with more specificity for modifying nucleic acids failed to cause inactivation and when a resting cell is activated by some factors and division occurs, protein synthesis has begun before DNA synthesis etc., are also very difficult to explain clearly by the central dogma. A broad outline of a mechanism for reverse translation can easily be 'designed', based on the normal translation process, and this serves both to prove that there is no fundamental theoretical reason for the central dogma, and to illustrate why the redundancy of genetic code is not a problem.This paper, based on some previous research work of authors, from the view of cybernetics, information theory and theoretical biology, explored the possibility of protein as a genetic information carrier, the probable pairing ways between ammo acids-codons, and the direction of genetic information flows etc., at theory, by comparing and analyzing theoretically the characteristics of information carriers existing in DNA and protein. The authors inferred that perhaps protein may join the informational transferring as a genetic information carrier; the direction of genetic information flows, besides the way described by the central dogma, seem also to have another type, that is, genetic information flowing from protein - DNA (RNA) - protein, which also includes the genetic information flow in the central dogma. Undoubtedly, the research on problems about the position and roles of protein during the genetic information transferring will have an important effect on the investigation and development of molecular biology, molecular genetics and gene engineering.
