Academic literature on the topic 'Dpann'
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Journal articles on the topic "Dpann":
He, Christine, Ray Keren, Michael L. Whittaker, Ibrahim F. Farag, Jennifer A. Doudna, Jamie H. D. Cate, and Jillian F. Banfield. "Genome-resolved metagenomics reveals site-specific diversity of episymbiotic CPR bacteria and DPANN archaea in groundwater ecosystems." Nature Microbiology 6, no. 3 (January 25, 2021): 354–65. http://dx.doi.org/10.1038/s41564-020-00840-5.
Williams, Tom A., Gergely J. Szöllősi, Anja Spang, Peter G. Foster, Sarah E. Heaps, Bastien Boussau, Thijs J. G. Ettema, and T. Martin Embley. "Integrative modeling of gene and genome evolution roots the archaeal tree of life." Proceedings of the National Academy of Sciences 114, no. 23 (May 22, 2017): E4602—E4611. http://dx.doi.org/10.1073/pnas.1618463114.
Reinhardt, Astrid, and David Eisenberg. "DPANN: Improved sequence to structure alignments following fold recognition." Proteins: Structure, Function, and Bioinformatics 56, no. 3 (April 28, 2004): 528–38. http://dx.doi.org/10.1002/prot.20144.
Castelle, Cindy J., Christopher T. Brown, Karthik Anantharaman, Alexander J. Probst, Raven H. Huang, and Jillian F. Banfield. "Biosynthetic capacity, metabolic variety and unusual biology in the CPR and DPANN radiations." Nature Reviews Microbiology 16, no. 10 (September 4, 2018): 629–45. http://dx.doi.org/10.1038/s41579-018-0076-2.
Mathlouthi, Nour El Houda, Imen Belguith, Mariem Yengui, Hamadou Oumarou Hama, Jean-Christophe Lagier, Leila Ammar Keskes, Ghiles Grine, and Radhouane Gdoura. "The Archaeome’s Role in Colorectal Cancer: Unveiling the DPANN Group and Investigating Archaeal Functional Signatures." Microorganisms 11, no. 11 (November 10, 2023): 2742. http://dx.doi.org/10.3390/microorganisms11112742.
Lipsewers, Yvonne A., Ellen C. Hopmans, Jaap S. Sinninghe Damsté, and Laura Villanueva. "Potential recycling of thaumarchaeotal lipids by DPANN Archaea in seasonally hypoxic surface marine sediments." Organic Geochemistry 119 (May 2018): 101–9. http://dx.doi.org/10.1016/j.orggeochem.2017.12.007.
Makarova, Kira S., Yuri I. Wolf, and Eugene V. Koonin. "Towards functional characterization of archaeal genomic dark matter." Biochemical Society Transactions 47, no. 1 (February 1, 2019): 389–98. http://dx.doi.org/10.1042/bst20180560.
Ortiz-Alvarez, Rudiger, and Emilio O. Casamayor. "High occurrence ofPacearchaeotaandWoesearchaeota(Archaea superphylum DPANN) in the surface waters of oligotrophic high-altitude lakes." Environmental Microbiology Reports 8, no. 2 (January 28, 2016): 210–17. http://dx.doi.org/10.1111/1758-2229.12370.
Jaffe, Alexander L., Cindy J. Castelle, Christopher L. Dupont, and Jillian F. Banfield. "Lateral Gene Transfer Shapes the Distribution of RuBisCO among Candidate Phyla Radiation Bacteria and DPANN Archaea." Molecular Biology and Evolution 36, no. 3 (December 13, 2018): 435–46. http://dx.doi.org/10.1093/molbev/msy234.
Colombet, Jonathan, Maxime Fuster, Hermine Billard, and Télesphore Sime-Ngando. "Femtoplankton: What’s New?" Viruses 12, no. 8 (August 12, 2020): 881. http://dx.doi.org/10.3390/v12080881.
Dissertations / Theses on the topic "Dpann":
Baker, Brittany. "Deep archaeal phylogeny and evolutionary dynamics of DPANNs." Electronic Thesis or Diss., université Paris-Saclay, 2024. http://www.theses.fr/2024UPASL007.
Archaea, one of life's three fundamental domains alongside Bacteria and Eucarya, thrive in nearly every habitat. Nevertheless, the precise structure of the archaeal tree of life remains unclear, clouding our understanding of the evolutionary history of this domain. For instance, it is unknown how many times archaea adapted to hypersaline environments. Depending on the phylogenetic placement of the currently known groups of halophiles, the number could range from one to four times. Similarly, the DPANN archaea are one of the four major archaeal supergroups along with the TACK, Asgard, and Euryarchaeota, yet their monophyly and phylogenetic placement in the archaeal tree remain unresolved. The DPANN archaea are typically classified as nano-sized archaea that grow obligately attached to another archaeon host for their growth and survival. Resolving the phylogenetic position of the DPANN has important implications to understanding the tempo and mode of the evolution of these episymbiotic archaea and other major archaeal clades.The primary goal of my PhD was to conduct a thorough phylogenomic analysis of halophilic and DPANN archaea to gain deeper insights into their evolutionary history. My research revealed that halophilic archaea independently adapted to hypersaline environments at least four times. As part of this project, two novel family-level lineages of extreme halophiles, Afararchaeaceae and Asbonarchaeaceae, were identified from hypersaline lakes in the Danakil Depression in North-Eastern Ethiopia. My findings also clarified previous phylogenetic inconsistencies, highlighting that unique amino acid compositions in halophiles led to phylogenetic artifacts. By filtering out these biased data points, I achieved more consistent and reliable phylogenetic placements. I also reconstructed the evolutionary history of archaeal gene families by mapping events such as gene duplications, transfers, originations, and losses using gene tree-species tree reconciliation methods. I specifically focused on events that were specific to the branches leading to the various halophilic lineages. These results suggested that gene duplication and horizontal gene transfer played an important role in the adaptation to halophily, for example, by spreading key genes (such as those encoding potassium transporters) across the various extremely halophilic lineages. In my second project, I aimed to elucidate the evolutionary history of the DPANN archaea. This involved a comprehensive study of their phylogeny, by using an extensive set of conserved protein markers and a thorough taxon sampling that included representatives from all 11 known DPANN phyla. By employing various methods to mitigate the potential impact of compositional biases and long-branch attraction (LBA), I obtained robust support for the monophyly of the DPANN and their placement within the Euryarchaeota. Additionally, my research revealed that within the DPANN, the Altiarchaeota, which are potentially free-living, represent the earliest diverging branch. All together these results showed that the DPANN archaea are in fact a monophyletic group that evolved from a free-living Euryarchaeota ancestor. While automated phylogenetic pipelines are able to resolve some archaeal phylogenetic questions, this work has shown that in-depth phylogenomic analyses are still needed to resolve major branches of the archaeal tree. This research has demonstrated that, despite the long-standing awareness of phylogenetic artifacts like compositional sequence biases, there isn't a single bias that can explain all inconsistencies in the archaeal tree
Cheng, Shih-Hsun, and 程士勳. "Studies of Fluorescence Relaxation Dynamics of Donor-Acceptor Molecules (DPBMN and DPAMN) in Solvents of Various Polarities." Thesis, 2005. http://ndltd.ncl.edu.tw/handle/t52e5q.
國立交通大學
應用化學系所
94
This thesis contains two subjects. The first subject is to study the phenomenon of charge transfer of 2-(4(diphenylamino)benzylidene)malononitrile(DPBMN) in the solvents of various polarities. The time-resolved fluorescence spectra of DPBMN in polar and non-polar solvents were measured using the techniques of Femtosecond fluorescence up-conversion and Time-Correlated Single Photon Counting(TCSPC). The results of DPBMN in n-hexane solution show that there are two non-radiative processes occurring in the local excited state. The decay time constants of ~4 ps and ~ 220 ps are due to vibration relaxation and intersystem crossing processes respectively. However, DPBMN in the polar solvent (THF) the relaxation dynamics were different with those in n-hexane. We observed triphasic fluorescence decay, the femtosecond component is attribured to the charge transfer rate from the LE state to the CT state , the picosecond component is attributed to the vibration relaxation in the CT state and the nanosecond component is attributed to the internal conversion from the CT state to S0¬ state. In DMSO, we observed the faster charge transfer rate and the faster internal conversion in the CT state because both the energy barrier between LE and CT state and the energy between CT and S0 state were decreased by the high polar solvent. For the second subject, we studied the fluorescence relaxation dynamics of the derivatives of DPBMN, 2-((10-(diphenylamino)anthracen-9-yl)-methylene)- Malononitrile (DPAMN) in different solutions. We measured the time-resolved fluorescence spectra with TCSPC. The results show that there is no CT state in DPAMN because similar time-resolved spectras of DPAMN in the polar and non-polar solvents were observed. We found the S2 fluorescence in the steady-state fluorescence specta in different excited wavelengths. We suggest that DPAMN is an example of anti-Kasha’s rule.
YANG, YAO-YU, and 楊燿宇. "Analysis and Design of 90nm dPNN Sub-threshold SRAM with new energy-efficient write-assist and level-converted sensing circuits." Thesis, 2016. http://ndltd.ncl.edu.tw/handle/27374515201113143440.
Books on the topic "Dpann":
Blo-gros-brtan-pa. Dpaṅ-lo-blo-gros-brtan-paʼi mṅon pa kun btus kyi ʼgrel pa =: The collected works of Dpang-lo-blo-gros-brten-pa. [Kathmandu]: Sa-skya rgyal yoṅs gsuṅ rab slob gñer khaṅ, 1999.
Thub-bstan-chos-dar, Rak-ra. Śoṅ-dpaṅ źal luṅ me loṅ rnam bśad. Dharamsala, H.P: Bod kyi dpe mdzod khaṅ, 2007.
(China), Tibet. Btsan-byol Bod-miʼi Khrims-źib-khaṅ gi dpaṅ rtags rtsa ʼdzin khrims yig. [Dharamsala]: Bod-gźun śes rig par khaṅ nas par skrun byas pa, 1996.
Dimitrov, Dragomir. Sabdalamkaradosavibhaga - die Unterscheidung der Lautfiguren und der Fehler: Kritische Ausgabe des dritten Kapitels von Dandins Poetik "Kavyadarsa" und der tibetischen Übertragung "Snan nag lon" samt dem Sanskrit-Kommentar des Ratnasrijnana, dem tibetischen Kommentar des Dpan Blo gros brtan pa und einer deutschen Übersetzung des Sanskrit-Grundtextes. Wiesbaden: Harrassowitz, 2011.
guan, Xizang bo wu. Li shi de jian zheng: Xizang bo wu guan cang li dai zhong yang zheng fu zhi Zang wen wu ji cui = The Witness of History : A collection of cultural relics concerning the successive central governments governing Tibet preserved in Tibet Museum = Lo rgyus kyi dpang rtags : Bod-ljongs rten rdzas bshams mdzod khang nas nyar tshags byas paʼi krung dbyang srid gzhung rim byung gis Bod don ʼdzin skyong gnang baʼi skor gyi rig dngos gces btus. 8th ed. Chengdu: Sichuan mei shu chu ban she, 2015.
rma rgyal dpang bstod. Pe cin: Mi rigs dpe skrun khang, 2016.
Starting Out Dpawn Attacks The Collezukertort Barry And 150 Attacks. Everyman Chess, 2008.
gzhung dpang byed thabs skor gyi krung hwa mi dmangs spyi mthun rgyal khab kyi bca' khrims. Pe cin: Mi rigs dpe skrun khang, 2015.
Jian zheng Xizang: Xizang Zizhiqu zheng fu li ren xian ren zhu xi zi shu = Bod Rdzoṅ kyi bden dpaṅ. 8th ed. Beijing Shi: Zhongguo Zang xue chu ban she, 2005.
Dpan lo tsA ba blo gros brtan pa'i mdzad rjes las 'phros pa'i khong gi brda sprod dan snan nag yig sgyur skor gyi bsam blo la dpyad pa blo gsal rig pa'i dga' ston zes bya ba bzugs so. Lha-sa: Bod-ljongs mi dmangs dpe skrun khang, 2013.
Book chapters on the topic "Dpann":
Amils, Ricardo. "DPANN, Archaea." In Encyclopedia of Astrobiology, 1. Berlin, Heidelberg: Springer Berlin Heidelberg, 2022. http://dx.doi.org/10.1007/978-3-642-27833-4_5546-1.
Amils, Ricardo. "DPANN, Archaea." In Encyclopedia of Astrobiology, 838. Berlin, Heidelberg: Springer Berlin Heidelberg, 2023. http://dx.doi.org/10.1007/978-3-662-65093-6_5546.
Li, Yan-Jun, Hai-Jun Zhang, Wei-Min Pan, Ru-Jia Feng, and Zhong-Yue Zhou. "Microblog Rumor Detection Based on Bert-DPCNN." In Lecture Notes in Electrical Engineering, 524–30. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-8599-9_60.
Zhang, Hu, Xin Wang, Hongye Tan, and Ru Li. "Applying Data Discretization to DPCNN for Law Article Prediction." In Natural Language Processing and Chinese Computing, 459–70. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-32233-5_36.
Xiangyu, Deng, Zhang Huan, and Yang Yahan. "Ultrasonic Image Segmentation Algorithm of Thyroid Nodules Based on DPCNN." In Lecture Notes in Electrical Engineering, 163–74. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-3880-0_18.
Xiao, Ning, Shichao Luo, Yan Qiang, Juanjuan Zhao, and Jianhong Lian. "DPACN: Dual Prior-Guided Astrous Convolutional Network for Adhesive Pulmonary Nodules Segmentation on CT Sequence." In Pattern Recognition and Computer Vision, 560–69. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-88010-1_47.
Cui, Bo, Jinling Li, and Wenhan Hou. "ATDG: An Automatic Cyber Threat Intelligence Extraction Model of DPCNN and BIGRU Combined with Attention Mechanism." In Web Information Systems Engineering – WISE 2023, 189–204. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-7254-8_15.
"Figure 13 Model structure of CVT based upon DPNN method." In Mechatronics in Engineering Design and Product Development, 594–98. CRC Press, 1998. http://dx.doi.org/10.1201/9781482289862-150.
Conference papers on the topic "Dpann":
Zhang, MeiJiao, Jiacheng Pang, Jiahong Cai, Yingzi Huo, Ce Yang, and Huixuan Xiong. "DPCNN-based Models for Text Classification." In 2023 IEEE 10th International Conference on Cyber Security and Cloud Computing (CSCloud)/2023 IEEE 9th International Conference on Edge Computing and Scalable Cloud (EdgeCom). IEEE, 2023. http://dx.doi.org/10.1109/cscloud-edgecom58631.2023.00068.
Xian, Guangming, Qianling Guo, Zhifeng Zhao, Yongsheng Luo, and Haoyang Mei. "Short Text Classification Model Based on DeBERTa-DPCNN." In 2023 4th International Conference on Big Data, Artificial Intelligence and Internet of Things Engineering (ICBAIE). IEEE, 2023. http://dx.doi.org/10.1109/icbaie59714.2023.10281320.
Li, Yonggang, Haiming Yin, Meihong Shi, and Guangxue Yue. "A Method of Color Image Segmentation Based on DPCNN." In 2008 International Conference on Cyberworlds (CW). IEEE, 2008. http://dx.doi.org/10.1109/cw.2008.142.
Zhu, Junzhe, Raymond A. Yeh, and Mark Hasegawa-Johnson. "Multi-Decoder Dprnn: Source Separation for Variable Number of Speakers." In ICASSP 2021 - 2021 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP). IEEE, 2021. http://dx.doi.org/10.1109/icassp39728.2021.9414205.
Chen, Junhao. "Blogger Feature Extraction Optimization Algorithm Based on K-means and DPCNN." In ICITEE 2022: 5th International Conference on Information Technologies and Electrical Engineering. New York, NY, USA: ACM, 2022. http://dx.doi.org/10.1145/3582935.3582955.
Ghorbani, Ramin, and Sajad Haghzad Klidbary. "DPRNN-Former: An Efficient Way to Deal with Blind Source Separation." In 2023 13th International Conference on Computer and Knowledge Engineering (ICCKE). IEEE, 2023. http://dx.doi.org/10.1109/iccke60553.2023.10326221.
Huang, Huanhuan, Ke Yang, Lijun Zhang, Dawei Yin, and Dezhong Peng. "Intelligent Recommendation of Legal Articles Based on DPCNN with Capsule Model." In 2021 International Conference on Computer Information Science and Artificial Intelligence (CISAI). IEEE, 2021. http://dx.doi.org/10.1109/cisai54367.2021.00180.
Liu, Hongliang, Zhiyu Chen, Miao Yu, Wenbo Cui, Lin Zang, Wei Ren, and Yongfang Hou. "Evaluation of the Relevance of Adverse Drug Reactions Based on ERNIE-DPCNN." In 2023 IEEE 47th Annual Computers, Software, and Applications Conference (COMPSAC). IEEE, 2023. http://dx.doi.org/10.1109/compsac57700.2023.00235.
Yang, Yang, Xunde Dong, and Yupeng Qiang. "A Deep Learning Sentiment Analysis Method based on ERNIE and Modified DPCNN." In ICCPR 2023: 2023 12th International Conference on Computing and Pattern Recognition. New York, NY, USA: ACM, 2023. http://dx.doi.org/10.1145/3633637.3633642.
Dai, Wei, Yingmin Su, Xiaofeng Pan, Yufeng Wang, Zhenyu Zhu, Nan Xu, Chengjun Mao, and Bo Cao. "DPAN: Dynamic Preference-based and Attribute-aware Network for Relevant Recommendations." In CIKM '23: The 32nd ACM International Conference on Information and Knowledge Management. New York, NY, USA: ACM, 2023. http://dx.doi.org/10.1145/3583780.3615218.