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    Abroad: 515

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1. A genomic view of the human-Bacteroides thetaiotaomicron symbiosis [984]
2. Novel Features of the Polysaccharide-Digesting Gliding Bacterium F.. [865]
3. Analysis of YM-216391 Biosynthetic Gene Cluster and Improvement of.. [762]
4. Single cell Raman spectroscopy for cell sorting and imaging [756]
5. Establishing Oleaginous Microalgae Research Models for Consolidate.. [610]
6. Factors influencing cellulosome activity in Consolidated Bioproces.. [590]
7. (2011) Autotrophic growth of soil Archaea during active nitrificat.. [588]
8. Autotrophic growth of nitrifying community in an agricultural soil [568]
9. Correlation of genomic and physiological traits to biofuel yields .. [567]
10. Structure and regulation of the cellulose degradome in Clostridium.. [549]
11. Raman-Activated Droplet Sorting (RADS) for Label-Free High-Through.. [525]
12. Towards high-throughput microfluidic Raman-activated cell sorting [490]
13. A Culture-Independent Approach to Unravel Uncultured Bacteria and .. [476]
14. . Dissecting and engineering metabolic and regulatory networks of .. [463]
15. Analysis of YM-216391 Biosynthetic Gene Cluster and Improvement of.. [457]
16. 基于GPGPU和多核CPU硬件的高性能元基因组数据分析系 [451]
17. Ultrasound-Mediated DNA Transformation in Thermophilic Gram-Positi.. [449]
18. Genomic Foundation of Starch-to-Lipid Switch in Oleaginous Chlorel.. [436]
19. SNP calling using genotype model selection on high-throughput sequ.. [435]
20. Preliminary characterization of the oral microbiota of Chinese adu.. [421]
21. Metagenomic Insights into the Fibrolytic Microbiome in Yak Rumen [410]
22. Bar-Coded Pyrosequencing Reveals the Responses of PBDE-Degrading M.. [409]
23. Adaptive foraging of a prominent human intestinal symbiont in gnot.. [397]
24. Microevolution from shock to adaptation revealed strategies improv.. [395]
25. A molecular sensor that allows a gut commensal to control its nutr.. [388]
26. An Open-source Collaboration Environment for Metagenomics Research [372]
27. 一种提高微生物底物利用率的发酵方法 [371]
28. In vitro method for prediction of plaque reduction by dentifrice [369]
29. Dissecting and engineering metabolic and regulatory networks of th.. [368]
30. MetaSee: An Interactive and Extendable Visualization Toolbox for M.. [361]
31. GPU-Meta-Storms: Computing the similarities among massive microbia.. [358]
32. Antagonistic roles of abscisic acid and cytokinin during response .. [353]
33. SNP calling using genotype model selection on next generation sequ.. [348]
34. QC-Chain: Fast and Holistic Quality Control Method for Next-Genera.. [345]
35. Flavin mononucleotide (FMN)-based fluorescent protein (FbFP) as re.. [339]
36. The Thermoanaerobacter Glycobiome Reveals Mechanisms of Pentose an.. [338]
37. Producing Designer Oils in Industrial Microalgae by Rational Modul.. [338]
38. 一种细胞遗传转化的方法和装置 [336]
39. Ultrasound-mediated plasmid transformation in thermophilic anaerob.. [336]
40. Parallel-META: efficient metagenomic data analysis based on high-p.. [335]
41. Message from a human gut symbiont: sensitivity is a prerequisite f.. [331]
42. Characterization of an enrichment culture debrominating deca-BDE w.. [330]
43. 一种纤维素原料的糖化方法 [315]
44. Honor thy symbionts [315]
45. Magnetic nanoparticle-mediated isolation of functional bacteria in.. [304]
46. Nannochloropsis plastid and mitochondrial phylogenomes reveal orga.. [292]
47. 快速筛选嗜热厌氧产乙醇微生物高产乙醇菌株的方法 [291]
48. 微拟球藻培养中共生关系的初步研究 [288]
49. A machine learning framework of functional biomarker discovery for.. [284]
50. Lineage-specific chromatin signatures reveal a regulator of lipid .. [280]
51. Saliva microbiomes distinguish caries-active from healthy human-po.. [279]
52. Development of HuMiChip for Functional Profiling of Human Microbio.. [275]
53. Nannochloropsis Genomes Reveal Evolution of Microalgal Oleaginous .. [273]
54. Microbial Basis of Oral Malodor Development in Humans [270]
55. Precise quantitative addition of multiple reagents into droplets i.. [239]
56. Correlation of Genomic and Physiological Traits of Thermoanaerobac.. [237]
57. Parallel-META: A High-Performance Computational Pipeline for Metag.. [235]
58. Enhancing photosynthetic biomass productivity of industrial oleagi.. [230]
59. Biological ingredient analysis of traditional Chinese medicine pre.. [228]
60. Raman-Activated Cell Sorting Based on Dielectrophoretic Single-Cel.. [225]
61. RNAi-based targeted gene knockdown in the model oleaginous microal.. [224]
62. Towards high-throughput microfluidic Raman-activated cell sorting .. [221]
63. Cellulosome stoichiometry in Clostridium cellulolyticum is regulat.. [216]
64. Characterization of the Central Metabolic Pathways in Thermoanaero.. [215]
65. Cow-to-mouse fecal transplantations suggest intestinal microbiome .. [213]
66. Genome editing of model oleaginous microalgae Nannochloropsis spp... [212]
67. Flexible Perovskite Solar Cells onto Plastic Substrate Exceeding 1.. [211]
68. Intestinal Microbiota Distinguish Gout Patients from Healthy Human.. [210]
69. Phytohormones in microalgae: a new opportunity for microalgal biot.. [207]
70. Single cell biotechnology to shed a light on biological 'dark matt.. [201]
71. Molecular mechanisms for photosynthetic carbon partitioning into s.. [192]
72. Genome-wide identification of transcription factors and transcript.. [187]
73. Meeting report: a close look at oral biofilms and microbiomes [172]
74. Raman spectroscopy provides a rapid, non-invasive method for quant.. [171]
75. Raman Activated Cell Ejection for Isolation of Single Cells [167]
76. In vitro oxidative decarboxylation of free fatty acids to terminal.. [164]
77. Metabolic-Activity-Based Assessment of Antimicrobial Effects by D2.. [163]
78. Raman-activated cell sorting and metagenomic sequencing revealing .. [163]
79. Saliva Microbiota Carry Caries-Specific Functional Gene Signatures [162]
80. Microbial Community Changes Along a Land-Use Gradient of Desert So.. [161]
81. Reverse and Multiple Stable Isotope Probing to Study Bacterial Met.. [156]
82. On-demand control of microfluidic flow via capillary-tuned solenoi.. [152]
83. Label-free, rapid and quantitative phenotyping of stress response .. [152]
84. The PathoChip, a functional gene array for assessing pathogenic pr.. [151]
85. Regulation of the cholesterol biosynthetic pathway and its integra.. [142]
86. Microbiota-based Signature of Gingivitis Treatments: A Randomized .. [142]
87. Impact of DNA extraction method and targeted 16S-rRNA hypervariabl.. [142]
88. Predictive modeling of gingivitis severity and susceptibility via .. [140]
89. Quantitative dynamics of triacylglycerol accumulation in microalga.. [140]
90. Genomic and transcriptome analyses reveal that MAPK- and phosphati.. [139]
91. OPTIMIZED METHODS OF CHROMATIN IMMUNOPRECIPITATION FOR PROFILING H.. [138]
92. Cetylpyridinium chloride mouth rinses alleviate experimental gingi.. [136]
93. Parallel-META 2.0: Enhanced Metagenomic Data Analysis with Functio.. [133]
94. Choreography of Transcriptomes and Lipidomes of Nannochloropsis Re.. [128]
95. Performances of two biotrickling filters in treating H2S-containin.. [128]
96. Comparative Gut Microbiomes of Four Species Representing the Highe.. [128]
97. Comparative Gut Microbiomes of Four Species Representing the Highe.. [127]
98. QSpec: online control and data analysis systemfor single-cell Rama.. [112]
99. 一种具有三脂酰甘油合成功能的基因及其应用 [108]
100. 一种模块化微流控芯片的制作方法 [105]

Downloads

1. A genomic view of the human-Bacteroides thetaiotaomicron symbiosis [443]
2. Raman-Activated Droplet Sorting (RADS) for Label-Free High-Through.. [288]
3. Novel Features of the Polysaccharide-Digesting Gliding Bacterium F.. [283]
4. Towards high-throughput microfluidic Raman-activated cell sorting [262]
5. Single cell Raman spectroscopy for cell sorting and imaging [261]
6. Dissecting and engineering metabolic and regulatory networks of th.. [182]
7. Flavin mononucleotide (FMN)-based fluorescent protein (FbFP) as re.. [173]
8. In vitro method for prediction of plaque reduction by dentifrice [169]
9. Antagonistic roles of abscisic acid and cytokinin during response .. [153]
10. Factors influencing cellulosome activity in Consolidated Bioproces.. [152]
11. (2011) Autotrophic growth of soil Archaea during active nitrificat.. [142]
12. Producing Designer Oils in Industrial Microalgae by Rational Modul.. [138]
13. Microbial Basis of Oral Malodor Development in Humans [123]
14. Establishing Oleaginous Microalgae Research Models for Consolidate.. [122]
15. Genomic Foundation of Starch-to-Lipid Switch in Oleaginous Chlorel.. [115]
16. Magnetic nanoparticle-mediated isolation of functional bacteria in.. [114]
17. . Dissecting and engineering metabolic and regulatory networks of .. [111]
18. Development of HuMiChip for Functional Profiling of Human Microbio.. [102]
19. Ultrasound-Mediated DNA Transformation in Thermophilic Gram-Positi.. [96]
20. Metagenomic Insights into the Fibrolytic Microbiome in Yak Rumen [93]
21. Nannochloropsis Genomes Reveal Evolution of Microalgal Oleaginous .. [93]
22. Structure and regulation of the cellulose degradome in Clostridium.. [89]
23. The Thermoanaerobacter Glycobiome Reveals Mechanisms of Pentose an.. [87]
24. Analysis of YM-216391 Biosynthetic Gene Cluster and Improvement of.. [87]
25. Analysis of YM-216391 Biosynthetic Gene Cluster and Improvement of.. [77]
26. Preliminary characterization of the oral microbiota of Chinese adu.. [74]
27. Correlation of Genomic and Physiological Traits of Thermoanaerobac.. [74]
28. Correlation of genomic and physiological traits to biofuel yields .. [66]
29. Honor thy symbionts [62]
30. Nannochloropsis plastid and mitochondrial phylogenomes reveal orga.. [62]
31. SNP calling using genotype model selection on high-throughput sequ.. [61]
32. Biological ingredient analysis of traditional Chinese medicine pre.. [61]
33. SNP calling using genotype model selection on next generation sequ.. [60]
34. GPU-Meta-Storms: Computing the similarities among massive microbia.. [59]
35. A Culture-Independent Approach to Unravel Uncultured Bacteria and .. [55]
36. Microevolution from shock to adaptation revealed strategies improv.. [54]
37. Characterization of the Central Metabolic Pathways in Thermoanaero.. [54]
38. Message from a human gut symbiont: sensitivity is a prerequisite f.. [51]
39. A molecular sensor that allows a gut commensal to control its nutr.. [51]
40. Ultrasound-mediated plasmid transformation in thermophilic anaerob.. [50]
41. A machine learning framework of functional biomarker discovery for.. [48]
42. 微拟球藻培养中共生关系的初步研究 [47]
43. An Open-source Collaboration Environment for Metagenomics Research [46]
44. Adaptive foraging of a prominent human intestinal symbiont in gnot.. [44]
45. QC-Chain: Fast and Holistic Quality Control Method for Next-Genera.. [44]
46. Bar-Coded Pyrosequencing Reveals the Responses of PBDE-Degrading M.. [41]
47. Saliva microbiomes distinguish caries-active from healthy human-po.. [38]
48. Parallel-META: A High-Performance Computational Pipeline for Metag.. [32]
49. MetaSee: An Interactive and Extendable Visualization Toolbox for M.. [30]
50. Parallel-META: efficient metagenomic data analysis based on high-p.. [28]