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Se maintains updated information on GH families and CBM families according to theirMetagenomic Mining of Cellulolytic Genesclassifications of amino acid sequences similarity. Currently there are 130 GH families and 64 CBM families. The searching results by HMM based on PfamA database was further screened against the CAZy database for candidate carbohydrate-active genes (Table S3 and S4). Glycoside hydrolase (GH) families are assigned to different categories based on the classification published by Pope et al. [19]. It is interesting to notice that: first, there is a wide diversity of GH catalytic modules in the thermophilic sludge microbiome, indicated by the 236 modules belonging to 30 GH families, which was comparable to bovine rumen with 35 GH families [20]. But to great contrast, only 16 carbohydrate-binding modules from 5 families (CBM2, CBM3, CBM6, CBM20 and CBM25) were observed (Table S4). Comparing to rumen [11] and termite gut microbiomes [12], the high fraction of CBM3, a common component 18325633 of cellulosomes [2] (Figure 5), indicated a thermostable AZ-876 cellulosome-based metabolism system, in which initial attachment of the microorganisms to the recalcitrant substrate surface played a critical role in the sludge metagenome. Nearly all of the CBMs were found in ORFs affiliated to Firmicutes (31 out of 33 CBMs), which was probably resulted from the cellulosome based attached growth model adopted by the dominant cellulolytic Clostridium strains under that phylum. For the GH families, most of the GH genes were Bacteria MedChemExpress GNF-7 originated (116 out of 236 GHs), while 12 were assigned as Archaea. However, around half of the GH families (108 out of 236 GHs) came from the ORFs which were unable to be assigned to any known phylum in the NCBI nr database at E-value cutoff of 1E-5, demonstrating that many of the thermo-stable carbohydrate-active genes in the sludge were contributed from the populations which were not well phylogenetically characterized. Comparing to other two mesophilic plant fed microbiomes [11,12], the thermophilic sludge metagenome showed high proportion of endoglucanases as GH9 (13.8 of GH families, Table S3) whose C-terminus catalytic domain usually has rigidly attached a CBM3 family [21]. The dominance of GH9 and CBM3 in the thermophilic sludge metagenome indicated a beneficial thermo-stable cellulosome based polysaccharide metabolism pathway as compared to mesophilic system of rumen and termite gut [11,12] (Figure 5). More importantly, a round half of the thermophilic cellulolytic genes identified in the sludge metagenome had less than 50 similarity to known genes in nr database (Figure 4), indicating the possible existence of novel thermo-stable genes which had never be identified elsewhere. Further experiments are undergoing to validate the cellulosedegrading activity and thermo-stability of these predicted genes from the sludge metagenome. Apart from enzymes devoted to the hydrolysis of the main chain of cellulose (GH5, GH9), hemicellulose (GH10, GH11), and pectins (GH28), the sludge metagenome displayed a larger diversity of enzymes that digested the side chains of these polymers and oligosaccharides thereof (Figure 5). The families GH2 and GH3, which contain a large range of glycosidases were particularly abundant, with .34 of GH families (Table S3).enriched sludge had a volatile suspended solid (VSS) of 1.4 g/l and was capable to convert cellulose at 1.15 kg cellulose m23 d21 [16].DNA ExtractionGenomic DNA was extracted fr.Se maintains updated information on GH families and CBM families according to theirMetagenomic Mining of Cellulolytic Genesclassifications of amino acid sequences similarity. Currently there are 130 GH families and 64 CBM families. The searching results by HMM based on PfamA database was further screened against the CAZy database for candidate carbohydrate-active genes (Table S3 and S4). Glycoside hydrolase (GH) families are assigned to different categories based on the classification published by Pope et al. [19]. It is interesting to notice that: first, there is a wide diversity of GH catalytic modules in the thermophilic sludge microbiome, indicated by the 236 modules belonging to 30 GH families, which was comparable to bovine rumen with 35 GH families [20]. But to great contrast, only 16 carbohydrate-binding modules from 5 families (CBM2, CBM3, CBM6, CBM20 and CBM25) were observed (Table S4). Comparing to rumen [11] and termite gut microbiomes [12], the high fraction of CBM3, a common component 18325633 of cellulosomes [2] (Figure 5), indicated a thermostable cellulosome-based metabolism system, in which initial attachment of the microorganisms to the recalcitrant substrate surface played a critical role in the sludge metagenome. Nearly all of the CBMs were found in ORFs affiliated to Firmicutes (31 out of 33 CBMs), which was probably resulted from the cellulosome based attached growth model adopted by the dominant cellulolytic Clostridium strains under that phylum. For the GH families, most of the GH genes were Bacteria originated (116 out of 236 GHs), while 12 were assigned as Archaea. However, around half of the GH families (108 out of 236 GHs) came from the ORFs which were unable to be assigned to any known phylum in the NCBI nr database at E-value cutoff of 1E-5, demonstrating that many of the thermo-stable carbohydrate-active genes in the sludge were contributed from the populations which were not well phylogenetically characterized. Comparing to other two mesophilic plant fed microbiomes [11,12], the thermophilic sludge metagenome showed high proportion of endoglucanases as GH9 (13.8 of GH families, Table S3) whose C-terminus catalytic domain usually has rigidly attached a CBM3 family [21]. The dominance of GH9 and CBM3 in the thermophilic sludge metagenome indicated a beneficial thermo-stable cellulosome based polysaccharide metabolism pathway as compared to mesophilic system of rumen and termite gut [11,12] (Figure 5). More importantly, a round half of the thermophilic cellulolytic genes identified in the sludge metagenome had less than 50 similarity to known genes in nr database (Figure 4), indicating the possible existence of novel thermo-stable genes which had never be identified elsewhere. Further experiments are undergoing to validate the cellulosedegrading activity and thermo-stability of these predicted genes from the sludge metagenome. Apart from enzymes devoted to the hydrolysis of the main chain of cellulose (GH5, GH9), hemicellulose (GH10, GH11), and pectins (GH28), the sludge metagenome displayed a larger diversity of enzymes that digested the side chains of these polymers and oligosaccharides thereof (Figure 5). The families GH2 and GH3, which contain a large range of glycosidases were particularly abundant, with .34 of GH families (Table S3).enriched sludge had a volatile suspended solid (VSS) of 1.4 g/l and was capable to convert cellulose at 1.15 kg cellulose m23 d21 [16].DNA ExtractionGenomic DNA was extracted fr.

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Author: GTPase atpase