Research dataset of the study. by Faranak Mahmoudi Alami (18309967)

Subjects:

Pairwise comparison of muscle parameters in different groups. by Faranak Mahmoudi Alami (18309967)

Subjects:

Multifidus, erector spinae, and psoas major muscle parameters and analysis of variance results. by Faranak Mahmoudi Alami (18309967)

Subjects:

Comparison of multifidus rmCSA among the three groups. by Faranak Mahmoudi Alami (18309967)

Subjects:

MRI of the lumbar spine in axial view at L4–L5 lumbar level. by Faranak Mahmoudi Alami (18309967)

Subjects:

Comparison of erector spinae rmCSA among the three groups. by Faranak Mahmoudi Alami (18309967)

Subjects:

Study sample characteristics by groups. by Faranak Mahmoudi Alami (18309967)

Subjects:

Comparison of multifidus MFI index among the three groups. by Faranak Mahmoudi Alami (18309967)

Subjects:

Linear regressions comparing abundance and biomass data from Bouctouche and Cocagne. by Hannah Sharpe (18887297)

Robust Accurate Identification and Biomass Estimates of Microorganisms via Tandem Mass Spectrometry by Gelio Alves (51850)

“…This significant advance is made possible by several new ingredients introduced: first, we apply a modified expectation-maximization method to compute for each taxon considered a prior probability, which can be used for biomass estimate; second, we introduce a new concept called ownership, through which the participation ratio is computed and use it as the number of taxa to be kept within a cluster of closely related taxa; third, based on confidently identified peptides, we calculate for each taxon its degree of independence from the rest of taxa considered to determine whether or not to split this taxon off the cluster. …”

Robust Accurate Identification and Biomass Estimates of Microorganisms via Tandem Mass Spectrometry by Gelio Alves (51850)

“…This significant advance is made possible by several new ingredients introduced: first, we apply a modified expectation-maximization method to compute for each taxon considered a prior probability, which can be used for biomass estimate; second, we introduce a new concept called ownership, through which the participation ratio is computed and use it as the number of taxa to be kept within a cluster of closely related taxa; third, based on confidently identified peptides, we calculate for each taxon its degree of independence from the rest of taxa considered to determine whether or not to split this taxon off the cluster. …”

Robust Accurate Identification and Biomass Estimates of Microorganisms via Tandem Mass Spectrometry by Gelio Alves (51850)

“…This significant advance is made possible by several new ingredients introduced: first, we apply a modified expectation-maximization method to compute for each taxon considered a prior probability, which can be used for biomass estimate; second, we introduce a new concept called ownership, through which the participation ratio is computed and use it as the number of taxa to be kept within a cluster of closely related taxa; third, based on confidently identified peptides, we calculate for each taxon its degree of independence from the rest of taxa considered to determine whether or not to split this taxon off the cluster. …”

Robust Accurate Identification and Biomass Estimates of Microorganisms via Tandem Mass Spectrometry by Gelio Alves (51850)

“…This significant advance is made possible by several new ingredients introduced: first, we apply a modified expectation-maximization method to compute for each taxon considered a prior probability, which can be used for biomass estimate; second, we introduce a new concept called ownership, through which the participation ratio is computed and use it as the number of taxa to be kept within a cluster of closely related taxa; third, based on confidently identified peptides, we calculate for each taxon its degree of independence from the rest of taxa considered to determine whether or not to split this taxon off the cluster. …”

Table_2_Transcriptome Profiling-Based Analysis of Carbohydrate-Active Enzymes in Aspergillus terreus Involved in Plant Biomass Degradation.XLSX by Camila L. Corrêa (9463088)

“…<p>Given the global abundance of plant biomass residues, potential exists in biorefinery-based applications with lignocellulolytic fungi. …”

Image_4_Transcriptome Profiling-Based Analysis of Carbohydrate-Active Enzymes in Aspergillus terreus Involved in Plant Biomass Degradation.JPEG by Camila L. Corrêa (9463088)

“…<p>Given the global abundance of plant biomass residues, potential exists in biorefinery-based applications with lignocellulolytic fungi. …”

Image_1_Transcriptome Profiling-Based Analysis of Carbohydrate-Active Enzymes in Aspergillus terreus Involved in Plant Biomass Degradation.JPEG by Camila L. Corrêa (9463088)

“…<p>Given the global abundance of plant biomass residues, potential exists in biorefinery-based applications with lignocellulolytic fungi. …”

Table_1_Transcriptome Profiling-Based Analysis of Carbohydrate-Active Enzymes in Aspergillus terreus Involved in Plant Biomass Degradation.DOCX by Camila L. Corrêa (9463088)

“…<p>Given the global abundance of plant biomass residues, potential exists in biorefinery-based applications with lignocellulolytic fungi. …”

Image_3_Transcriptome Profiling-Based Analysis of Carbohydrate-Active Enzymes in Aspergillus terreus Involved in Plant Biomass Degradation.JPEG by Camila L. Corrêa (9463088)

“…<p>Given the global abundance of plant biomass residues, potential exists in biorefinery-based applications with lignocellulolytic fungi. …”

Image_2_Transcriptome Profiling-Based Analysis of Carbohydrate-Active Enzymes in Aspergillus terreus Involved in Plant Biomass Degradation.JPEG by Camila L. Corrêa (9463088)

“…<p>Given the global abundance of plant biomass residues, potential exists in biorefinery-based applications with lignocellulolytic fungi. …”

Table_4_Transcriptome Profiling-Based Analysis of Carbohydrate-Active Enzymes in Aspergillus terreus Involved in Plant Biomass Degradation.XLSX by Camila L. Corrêa (9463088)

“…<p>Given the global abundance of plant biomass residues, potential exists in biorefinery-based applications with lignocellulolytic fungi. …”