10,095 research outputs found
A conversation with Andrew Lian at Asia CALL
No full textHayo Reinders talks with Andrew Lian at the Asia CALL conference held in Da Nang, Vietnam. More information about the projects mentioned during the interview is provided below.
Precision Language Education, Rhizomatic systems, Epistemology
Lian, A.-P., & Sangarun, P. (2023). Rhizomatic learning systems and precision language education: A perfect match (Chapter 8). In M. S. Khine (Ed.), New Directions in Rhizomatic Learning From Poststructural Thinking to Nomadic Pedagogy (pp. 119–141). Routledge - Taylor & Francis Group. https://www.routledge.com/New-Directions-in-Rhizomatic-Learning-From-Poststructural-Thinking-to-Nomadic/Khine/p/book/9781032453088
Lian, A.-P., & Sangarun, P. (2017). Precision Language Education: A Glimpse Into a Possible Future (Feature article). GEMA Online® Journal of Language Studies, 17(4), 1-15. https://doi.org/10.17576/gema-2017-1704-01
Lian, A.-P. (2004). Technology-Enhanced Language-Learning Environments: a rhizomatic approach. In J.-B. Son (Ed.), Computer-Assisted Language Learning: Concepts, Contexts and Practices (pp. 1–20). iUniverse. http://www.andrewlian.com/andrewlian/prowww/apacall_2004/apacall_lian_ap_tell_rhizomatic.pdf
Lian, A.-P., & Sussex, R. D. (2018). Toward a critical epistemology for learning languages and cultures in 21st century Asia. In A. Curtis & R. D. Sussex (Eds.), Intercultural Communication in Asia: Education, Language and Values (Vol. 24, pp. 37–54). Springer International Publishing AG.
Verbotonalism and Load-Lightening (perception)
Cai, X., Lian, A.-P., Puakpong, N., Shi, Y., Chen, H., Zen, Y., Ou, J., Zheng, W., & Mo, Y. (2021). Optimizing Auditory Input for Foreign Language Learners through a Verbotonal-Based Dichotic Listening Approach. Asian-Pacific Journal of Second and Foreign Language Education, 6(14), https://sfleducation.springeropen.com/articles/10.1186/s40862-021-00119-0
Lian, A.-P., Cai, X., Chen, H., Ou, J., & Zheng, W. (2020). Cerebral Lateralization Induced by Dichotic Listening to Filtered and Unfiltered Stimuli: Optimizing Auditory Input for Foreign Language Learners. Journal of Critical Reviews, 7, 4608-4625. https://dx.doi.org/10.31838/jcr.07.19.541
Wen, F., Lian, A.-P., & Sangarun, P. (2020). Determination of corrective optimals for Chinese university learners of English. Govor/Speech, 37(1), 3-28 (SCOPUS). https://hrcak.srce.hr/file/362922
Self-imitation and perception
Li, Z., & Lian, A.-P. (2022). Achieving Self-Imitation for English Intonation Learning: the Role of Corrective Feedback. Chinese Journal of Applied Linguistics. Chinese Journal of Applied Linguistics, 45(01), 106-125. document/doi/10.1515/CJAL-2022- 0108/html">https://www.degruyter.com/document/doi/10.1515/CJAL-2022- 0108/html
Li, Z., Lian, A.-P., & Yodkamlue, B. (2020). Learning English Intonation Through Exposure to Resynthesized Self-produced Stimuli. GEMA Online® Journal of Language Studies, 20(1), 54-76 (SCOPUS). https://doi.org/10.17576/gema-2020-2001-04Hayo Reinders talks with Andrew Lian at the Asia CALL conference held in Da Nang, Vietnam
[[alternative]]Lian...dou/ye Construction
No full text[[abstract]]The thesis deals with the ‘lian…dou/ye …’ construction in modern Chinese. In order to clarify the informational status of ‘lian…’, issues on topic and focus are shown in the first part of this thesis. Then, discussions on semantic functions and conversational implicatures of this construction constitute the sencond part. Lastly, the formal complexity and pedagogical instructions will be presented as well.
Image_1_Intermodule Coupling Analysis of Huang-Lian-Jie-Du Decoction on Stroke.png
No full textHuang-Lian-Jie-Du Decoction (HLJDD) is a "Fangji" made up of well-designed Chinese herb array and widely used to treat ischemic stroke. Here we aimed to investigate pharmacological mechanism by introducing an inter-module analysis to identify an overarching view of target profile and action mode of HLJDD. Stroke-related genes were obtained from OMIM (Online Mendelian Inheritance in Man). And the potential target proteins of HLJDD were identified according to TCMsp (Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform). The two sets of molecules related to stroke and HLJDD were respectively imported into STRING database to construct the stroke network and HLJDD network, which were dissected into modules through MCODE, respectively. We analyzed the inter-module connectivity by quantify "coupling score" (CS) between HLJDD-modules (H-modules) and stroke-modules (S-module) to explore the pharmacological acting pattern of HLJDD on stroke. A total of 267 stroke-related proteins and 15 S-modules, 335 HLJDD putative targeting proteins, and 13 H-modules were identified, respectively. HLJDD directly targeted 28 proteins in stroke network, majority (16, 57.14%) of which were in S-modules 1 and 4. According to the modular map based on inter-module CS analysis, H-modules 1, 2, and 8 densely connected with S-modules 1, 3, and 4 to constitute a module-to-module bridgeness, and the enriched pathways of this bridgeness with top significance were TNF signaling pathway, HIF signaling pathway, and PI3K-Akt signaling pathway. Furthermore, through this bridgeness, H-modules 2 and 4 cooperatively work together to regulate mitochondrial apoptosis against the ischemia injury. Finally, the core protein in H-module 4 account for mitochondrial apoptosis was validated by an in vivo experiment. This study has developed an integrative approach by inter-modular analysis for elucidating the "shotgun-like" pharmacological mechanism of HLJDD for stroke.</p
Table_1_Intermodule Coupling Analysis of Huang-Lian-Jie-Du Decoction on Stroke.docx
No full textHuang-Lian-Jie-Du Decoction (HLJDD) is a "Fangji" made up of well-designed Chinese herb array and widely used to treat ischemic stroke. Here we aimed to investigate pharmacological mechanism by introducing an inter-module analysis to identify an overarching view of target profile and action mode of HLJDD. Stroke-related genes were obtained from OMIM (Online Mendelian Inheritance in Man). And the potential target proteins of HLJDD were identified according to TCMsp (Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform). The two sets of molecules related to stroke and HLJDD were respectively imported into STRING database to construct the stroke network and HLJDD network, which were dissected into modules through MCODE, respectively. We analyzed the inter-module connectivity by quantify "coupling score" (CS) between HLJDD-modules (H-modules) and stroke-modules (S-module) to explore the pharmacological acting pattern of HLJDD on stroke. A total of 267 stroke-related proteins and 15 S-modules, 335 HLJDD putative targeting proteins, and 13 H-modules were identified, respectively. HLJDD directly targeted 28 proteins in stroke network, majority (16, 57.14%) of which were in S-modules 1 and 4. According to the modular map based on inter-module CS analysis, H-modules 1, 2, and 8 densely connected with S-modules 1, 3, and 4 to constitute a module-to-module bridgeness, and the enriched pathways of this bridgeness with top significance were TNF signaling pathway, HIF signaling pathway, and PI3K-Akt signaling pathway. Furthermore, through this bridgeness, H-modules 2 and 4 cooperatively work together to regulate mitochondrial apoptosis against the ischemia injury. Finally, the core protein in H-module 4 account for mitochondrial apoptosis was validated by an in vivo experiment. This study has developed an integrative approach by inter-modular analysis for elucidating the "shotgun-like" pharmacological mechanism of HLJDD for stroke.</p
Locating chimpanzee nests and identifying fruiting trees with an unmanned aerial vehicle
No full textArticle first published online: 14 JUL 2015Abstract not availableAlexander C. van Andel, Serge A. Wich, Christophe Boesch, Lian Pin Koh, Martha M. Robbins, Joseph Kelly, and Hjalmar S. Kueh
Lian M. Madsen, Martha S. Karrebæk, e Janus S. Møller (a c. di), Everyday Languaging. Collaborative Research on the Language Use of Children and Youth
No full textReview of Everyday Languaging. Collaborative Research on the Language Use of Children and Youth by Lian M. Madsen, Martha S. Karrebæk, and Janus S. Møller (eds.)Recensione di Everyday Languaging. Collaborative Research on the Language Use of Children and Youth , a cura di Lian M. Madsen, Martha S. Karrebæk, e Janus S. Mølle
Table_5_Intermodule Coupling Analysis of Huang-Lian-Jie-Du Decoction on Stroke.docx
No full textHuang-Lian-Jie-Du Decoction (HLJDD) is a "Fangji" made up of well-designed Chinese herb array and widely used to treat ischemic stroke. Here we aimed to investigate pharmacological mechanism by introducing an inter-module analysis to identify an overarching view of target profile and action mode of HLJDD. Stroke-related genes were obtained from OMIM (Online Mendelian Inheritance in Man). And the potential target proteins of HLJDD were identified according to TCMsp (Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform). The two sets of molecules related to stroke and HLJDD were respectively imported into STRING database to construct the stroke network and HLJDD network, which were dissected into modules through MCODE, respectively. We analyzed the inter-module connectivity by quantify "coupling score" (CS) between HLJDD-modules (H-modules) and stroke-modules (S-module) to explore the pharmacological acting pattern of HLJDD on stroke. A total of 267 stroke-related proteins and 15 S-modules, 335 HLJDD putative targeting proteins, and 13 H-modules were identified, respectively. HLJDD directly targeted 28 proteins in stroke network, majority (16, 57.14%) of which were in S-modules 1 and 4. According to the modular map based on inter-module CS analysis, H-modules 1, 2, and 8 densely connected with S-modules 1, 3, and 4 to constitute a module-to-module bridgeness, and the enriched pathways of this bridgeness with top significance were TNF signaling pathway, HIF signaling pathway, and PI3K-Akt signaling pathway. Furthermore, through this bridgeness, H-modules 2 and 4 cooperatively work together to regulate mitochondrial apoptosis against the ischemia injury. Finally, the core protein in H-module 4 account for mitochondrial apoptosis was validated by an in vivo experiment. This study has developed an integrative approach by inter-modular analysis for elucidating the "shotgun-like" pharmacological mechanism of HLJDD for stroke.</p
Table_2_Intermodule Coupling Analysis of Huang-Lian-Jie-Du Decoction on Stroke.docx
No full textHuang-Lian-Jie-Du Decoction (HLJDD) is a "Fangji" made up of well-designed Chinese herb array and widely used to treat ischemic stroke. Here we aimed to investigate pharmacological mechanism by introducing an inter-module analysis to identify an overarching view of target profile and action mode of HLJDD. Stroke-related genes were obtained from OMIM (Online Mendelian Inheritance in Man). And the potential target proteins of HLJDD were identified according to TCMsp (Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform). The two sets of molecules related to stroke and HLJDD were respectively imported into STRING database to construct the stroke network and HLJDD network, which were dissected into modules through MCODE, respectively. We analyzed the inter-module connectivity by quantify "coupling score" (CS) between HLJDD-modules (H-modules) and stroke-modules (S-module) to explore the pharmacological acting pattern of HLJDD on stroke. A total of 267 stroke-related proteins and 15 S-modules, 335 HLJDD putative targeting proteins, and 13 H-modules were identified, respectively. HLJDD directly targeted 28 proteins in stroke network, majority (16, 57.14%) of which were in S-modules 1 and 4. According to the modular map based on inter-module CS analysis, H-modules 1, 2, and 8 densely connected with S-modules 1, 3, and 4 to constitute a module-to-module bridgeness, and the enriched pathways of this bridgeness with top significance were TNF signaling pathway, HIF signaling pathway, and PI3K-Akt signaling pathway. Furthermore, through this bridgeness, H-modules 2 and 4 cooperatively work together to regulate mitochondrial apoptosis against the ischemia injury. Finally, the core protein in H-module 4 account for mitochondrial apoptosis was validated by an in vivo experiment. This study has developed an integrative approach by inter-modular analysis for elucidating the "shotgun-like" pharmacological mechanism of HLJDD for stroke.</p
Table_3_Intermodule Coupling Analysis of Huang-Lian-Jie-Du Decoction on Stroke.docx
No full textHuang-Lian-Jie-Du Decoction (HLJDD) is a "Fangji" made up of well-designed Chinese herb array and widely used to treat ischemic stroke. Here we aimed to investigate pharmacological mechanism by introducing an inter-module analysis to identify an overarching view of target profile and action mode of HLJDD. Stroke-related genes were obtained from OMIM (Online Mendelian Inheritance in Man). And the potential target proteins of HLJDD were identified according to TCMsp (Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform). The two sets of molecules related to stroke and HLJDD were respectively imported into STRING database to construct the stroke network and HLJDD network, which were dissected into modules through MCODE, respectively. We analyzed the inter-module connectivity by quantify "coupling score" (CS) between HLJDD-modules (H-modules) and stroke-modules (S-module) to explore the pharmacological acting pattern of HLJDD on stroke. A total of 267 stroke-related proteins and 15 S-modules, 335 HLJDD putative targeting proteins, and 13 H-modules were identified, respectively. HLJDD directly targeted 28 proteins in stroke network, majority (16, 57.14%) of which were in S-modules 1 and 4. According to the modular map based on inter-module CS analysis, H-modules 1, 2, and 8 densely connected with S-modules 1, 3, and 4 to constitute a module-to-module bridgeness, and the enriched pathways of this bridgeness with top significance were TNF signaling pathway, HIF signaling pathway, and PI3K-Akt signaling pathway. Furthermore, through this bridgeness, H-modules 2 and 4 cooperatively work together to regulate mitochondrial apoptosis against the ischemia injury. Finally, the core protein in H-module 4 account for mitochondrial apoptosis was validated by an in vivo experiment. This study has developed an integrative approach by inter-modular analysis for elucidating the "shotgun-like" pharmacological mechanism of HLJDD for stroke.</p
Table_4_Intermodule Coupling Analysis of Huang-Lian-Jie-Du Decoction on Stroke.docx
No full textHuang-Lian-Jie-Du Decoction (HLJDD) is a "Fangji" made up of well-designed Chinese herb array and widely used to treat ischemic stroke. Here we aimed to investigate pharmacological mechanism by introducing an inter-module analysis to identify an overarching view of target profile and action mode of HLJDD. Stroke-related genes were obtained from OMIM (Online Mendelian Inheritance in Man). And the potential target proteins of HLJDD were identified according to TCMsp (Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform). The two sets of molecules related to stroke and HLJDD were respectively imported into STRING database to construct the stroke network and HLJDD network, which were dissected into modules through MCODE, respectively. We analyzed the inter-module connectivity by quantify "coupling score" (CS) between HLJDD-modules (H-modules) and stroke-modules (S-module) to explore the pharmacological acting pattern of HLJDD on stroke. A total of 267 stroke-related proteins and 15 S-modules, 335 HLJDD putative targeting proteins, and 13 H-modules were identified, respectively. HLJDD directly targeted 28 proteins in stroke network, majority (16, 57.14%) of which were in S-modules 1 and 4. According to the modular map based on inter-module CS analysis, H-modules 1, 2, and 8 densely connected with S-modules 1, 3, and 4 to constitute a module-to-module bridgeness, and the enriched pathways of this bridgeness with top significance were TNF signaling pathway, HIF signaling pathway, and PI3K-Akt signaling pathway. Furthermore, through this bridgeness, H-modules 2 and 4 cooperatively work together to regulate mitochondrial apoptosis against the ischemia injury. Finally, the core protein in H-module 4 account for mitochondrial apoptosis was validated by an in vivo experiment. This study has developed an integrative approach by inter-modular analysis for elucidating the "shotgun-like" pharmacological mechanism of HLJDD for stroke.</p
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