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SRA STUDY
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SRA Study Id
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SRP285069
(Link to NCBI )
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Study Title
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Taxonomic and functional microbial profiles of sugarcane and forest soils in the tropical region
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SRA Experiments
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| SRA Experiment Id |
SRX9176014
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
SUG-D_2 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
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| SRA Experiment Id |
SRX9176013
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
SUG-D_1 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
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| SRA Experiment Id |
SRX9176024
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
FOR-W_1 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176023
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
FOR-D_3 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176022
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
FOR-D_2 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176018
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
SUG-W_1 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176017
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
SUG-D_3 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176016
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
FOR-W_3 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176015
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
FOR-W_2 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176019
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
SUG-W_2 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176021
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
FOR-D_1 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
| |
|
| SRA Experiment Id |
SRX9176020
(Link to NCBI ) |
| Experiment Title |
This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements. |
| Submitter |
Luciano Kishi ([email protected]) |
| Exp Library Strategy |
WGS |
| Library Source |
METAGENOMIC |
| Library Selection |
RANDOM |
| Library Name |
SUG-W_3 |
| Library Layout |
PAIRED |
| Library Instrument |
Illumina HiScanSQ |
|
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Study Abstract
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This study utilized metagenomic sequencing to elucidate the interaction of sugarcane culture with the soil microorganisms involved in the biogeochemical carbon (C) and nitrogen (N) cycles by determining the diversity of genes involved in the metabolism of these elements.
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Alias
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PRJNA665014
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External Id
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BioProject=PRJNA665014
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