A brief information about two subspecies mollusks in the bank of Amu Darya river is collected according to the experience. As a result, we identified 9 types and 2 small types of two sub species mollusks live in Amu D...A brief information about two subspecies mollusks in the bank of Amu Darya river is collected according to the experience. As a result, we identified 9 types and 2 small types of two sub species mollusks live in Amu Darya river. Sinanodonta gibba, Sinanodonta orbicularis and Sinanodonta puerorum types for fauna were shown for the first time from the river.展开更多
The outbreak of hotspot in social network may contain complex dynamic genesis. Using user behavior data from hotspots in social network, we study how different user groups play different roles for a hotspot topic. Fir...The outbreak of hotspot in social network may contain complex dynamic genesis. Using user behavior data from hotspots in social network, we study how different user groups play different roles for a hotspot topic. Firstly, by analyzing users' behavior records, we mine group situation that promotes the hotspot.Several major attributions in a hotspot outbreak, such as individual, peer and group triggers, are defined formally according to the view-point of social identity, social interaction, retweet depth and opinion leader. Secondly,for the problem of the uneven and sparse data in each stage of hotspot topic's life cycle, we propose a dynamic influence model based on grey system to formalize the effect of different groups. Then the process of hotspot evolution driven by distinct crowd is showed dynamically. The experimental result confirms that the model is able not only to qualify users' influence on a hotspot topic but also to predict effectively an upcoming change in a hotspot topic.展开更多
On planet earth, the only place so far known that is suited to human life, human beings are the life form with the greatest vitality and ability. Our attitudes and concepts in relation to the world should not stop at ...On planet earth, the only place so far known that is suited to human life, human beings are the life form with the greatest vitality and ability. Our attitudes and concepts in relation to the world should not stop at understanding and changing it; rather, they should be sublated into a new worldview through which we can scientifically understand and rationally improve the world. Only on the basis of this new worldview can we find a new focus and a new set of values, a new way of living and acting. "Beautiful China," as a literary metaphor for the goal of constructing ecological civilization, vividly and fully expresses a completely new vision for socialist modernization with Chinese characteristics. The building of ecological civilization is a social scheme that needs to be based on clear, comprehensive, long-term and scientific ecological values, guided by ideas and regulated by institutions. It calls for the conscious action of all members of society.展开更多
Electroporation (EP) is one of the important techniques for the introduction of genes and drugs into cells with intense pulsed electric field to induce nanometer-sized electropores on cell membranes.Recently,micro/nan...Electroporation (EP) is one of the important techniques for the introduction of genes and drugs into cells with intense pulsed electric field to induce nanometer-sized electropores on cell membranes.Recently,micro/nano technology has been applied to many novel micro EP devices which can not only significantly increase uptake of biomolecules,DNA transfection and cell viability,but also enable large-scale single-cell EP.However,most EP theories developed in the past three decades can not precisely predict the experimental results of EP of biological cells.With the advanced micro EP chips for large-scale single-cell EP experiments,more precise EP theoretical models can be developed to describe the complicated multiscale dynamic behavior of EP.展开更多
Brain size and weight vary tremendously in the animal kingdom. It has been suggested that brain structural develop- ment must evolve balanced between the advantages of dealing with greater social challenges mad the en...Brain size and weight vary tremendously in the animal kingdom. It has been suggested that brain structural develop- ment must evolve balanced between the advantages of dealing with greater social challenges mad the energetic costs of maintain- ing and developing larger brains. Here we ask if interspecific differences in cooperative behaviour (i.e. cleaning behaviour) are related to brain weight variations in four close-related species of Labrid fish: two are obligatory cleanerfish throughout their en- tire life (Labroides dimidiatus and L. bicolor), one facultative cleaner fish Labropsis australis and one last species that never en- gage in cleaning Labrichthys unilineatus. We first search for the link between the rate of species' cooperation and its relative brain weight, and finally, if the degree of social complexity and cooperation are reflected in the weight of its major brain sub- structures. Overall, no differences were found in relative brain weight (in relation to body weight) across species. Fine-scale dif- ferences were solely demonstrated for the facultative cleaner L. australis, at the brainstem level. Furthermore, data visual exami- nation indicates that the average cerebellum and brainstem weights appear to be larger for L. dimidiatus. Because variation was solely found at specific brain areas (such as cerebellum and brainstem) and not for the whole brain weight values, it suggests that species social-ecological and cognitive demands may be directly contributing to a selective investment in relevant brain areas. This study provides first preliminary evidence that links potential differences in cognitive ability in cooperative behaviour to how these may mediate the evolution of brain structural development in non-mammal vertebrate groups .展开更多
Caenorhabditis elegans (C. elegans) is widely adopted as a model organism for a variety of biological studies including development, genetics and neurobiology. Micro-scale microfluidic technology is capable of handlin...Caenorhabditis elegans (C. elegans) is widely adopted as a model organism for a variety of biological studies including development, genetics and neurobiology. Micro-scale microfluidic technology is capable of handling single or populations of C. elegans in high throughput format and allows for the precise spatial and temporal control of their environment, which is well suited for the study of worms in different aspects. In this review, we highlight the recent advances in microfluidic technology for the analysis of worms ranging from behavioral studies to neurobiology. We believe that microfluidic device can further be applied to study the different aspects of worms, extending from fundamental investigation of behavioral dynamics to more complicated biological processes including neurochemistry and learning behaviors.展开更多
文摘A brief information about two subspecies mollusks in the bank of Amu Darya river is collected according to the experience. As a result, we identified 9 types and 2 small types of two sub species mollusks live in Amu Darya river. Sinanodonta gibba, Sinanodonta orbicularis and Sinanodonta puerorum types for fauna were shown for the first time from the river.
基金supported by National Basic Research Program of China(973 program)(Grant No.2013CB3296-06)National Natural Science Foundation of China(Grant No.61272400)+6 种基金Chongqing Innovative Team Fund for College Development Project(Grant No.KJTD201310)Chongqing Youth Innovative Talent Project(Grant No.cstc2013kjrc-qnrc40004)Ministry of Education of China and China Mobile Research Fund(Grant No.MCM20130351)Science and Technology Research Program of the Chongqing Municipal Education Committee(Grant No.KJ1500425)Wen Feng Foundation of CQUPT(Grant No.WF201403)Science and Technology on Information Transmission and Dissemination in Communication Networks Laboratory Open Subject(Grant No.ITD-U13002/KX132600009)Chongqing Graduate Research and Innovation Project(Grant No.CYS14146)
文摘The outbreak of hotspot in social network may contain complex dynamic genesis. Using user behavior data from hotspots in social network, we study how different user groups play different roles for a hotspot topic. Firstly, by analyzing users' behavior records, we mine group situation that promotes the hotspot.Several major attributions in a hotspot outbreak, such as individual, peer and group triggers, are defined formally according to the view-point of social identity, social interaction, retweet depth and opinion leader. Secondly,for the problem of the uneven and sparse data in each stage of hotspot topic's life cycle, we propose a dynamic influence model based on grey system to formalize the effect of different groups. Then the process of hotspot evolution driven by distinct crowd is showed dynamically. The experimental result confirms that the model is able not only to qualify users' influence on a hotspot topic but also to predict effectively an upcoming change in a hotspot topic.
文摘On planet earth, the only place so far known that is suited to human life, human beings are the life form with the greatest vitality and ability. Our attitudes and concepts in relation to the world should not stop at understanding and changing it; rather, they should be sublated into a new worldview through which we can scientifically understand and rationally improve the world. Only on the basis of this new worldview can we find a new focus and a new set of values, a new way of living and acting. "Beautiful China," as a literary metaphor for the goal of constructing ecological civilization, vividly and fully expresses a completely new vision for socialist modernization with Chinese characteristics. The building of ecological civilization is a social scheme that needs to be based on clear, comprehensive, long-term and scientific ecological values, guided by ideas and regulated by institutions. It calls for the conscious action of all members of society.
基金supported by the Hong Kong RGC (Grant No. 615907)the King Abdullah University of Science and Technology (Grant No. SA-C0040/UK-C0016)
文摘Electroporation (EP) is one of the important techniques for the introduction of genes and drugs into cells with intense pulsed electric field to induce nanometer-sized electropores on cell membranes.Recently,micro/nano technology has been applied to many novel micro EP devices which can not only significantly increase uptake of biomolecules,DNA transfection and cell viability,but also enable large-scale single-cell EP.However,most EP theories developed in the past three decades can not precisely predict the experimental results of EP of biological cells.With the advanced micro EP chips for large-scale single-cell EP experiments,more precise EP theoretical models can be developed to describe the complicated multiscale dynamic behavior of EP.
文摘Brain size and weight vary tremendously in the animal kingdom. It has been suggested that brain structural develop- ment must evolve balanced between the advantages of dealing with greater social challenges mad the energetic costs of maintain- ing and developing larger brains. Here we ask if interspecific differences in cooperative behaviour (i.e. cleaning behaviour) are related to brain weight variations in four close-related species of Labrid fish: two are obligatory cleanerfish throughout their en- tire life (Labroides dimidiatus and L. bicolor), one facultative cleaner fish Labropsis australis and one last species that never en- gage in cleaning Labrichthys unilineatus. We first search for the link between the rate of species' cooperation and its relative brain weight, and finally, if the degree of social complexity and cooperation are reflected in the weight of its major brain sub- structures. Overall, no differences were found in relative brain weight (in relation to body weight) across species. Fine-scale dif- ferences were solely demonstrated for the facultative cleaner L. australis, at the brainstem level. Furthermore, data visual exami- nation indicates that the average cerebellum and brainstem weights appear to be larger for L. dimidiatus. Because variation was solely found at specific brain areas (such as cerebellum and brainstem) and not for the whole brain weight values, it suggests that species social-ecological and cognitive demands may be directly contributing to a selective investment in relevant brain areas. This study provides first preliminary evidence that links potential differences in cognitive ability in cooperative behaviour to how these may mediate the evolution of brain structural development in non-mammal vertebrate groups .
基金supported by the Knowledge Innovation Program of the Chinese Academy of Sciences (KJCX2-YW-H18)Instrument Research and Development Program of the Chinese Academy of Sciences (YZ200908)the National Natural Science Foundation of China (11161160552)
文摘Caenorhabditis elegans (C. elegans) is widely adopted as a model organism for a variety of biological studies including development, genetics and neurobiology. Micro-scale microfluidic technology is capable of handling single or populations of C. elegans in high throughput format and allows for the precise spatial and temporal control of their environment, which is well suited for the study of worms in different aspects. In this review, we highlight the recent advances in microfluidic technology for the analysis of worms ranging from behavioral studies to neurobiology. We believe that microfluidic device can further be applied to study the different aspects of worms, extending from fundamental investigation of behavioral dynamics to more complicated biological processes including neurochemistry and learning behaviors.
