Nanopublications LDF server

Matches in Nanopublications for { ?s <http://schema.org/text> ?o ?g. }

• RAnh-o0GrvBfvoyiruq9UnbZOaNcHbue5O-FU6300R_Jg%23MethodResolutionClaim text "MLVA, MST, and IS1111 methods offer higher resolution than adaA and plasmid typing methods" assertion.
• RAnh-o0GrvBfvoyiruq9UnbZOaNcHbue5O-FU6300R_Jg%23InSilicoTypingClaim text "In silico typing can be an indispensable tool for rapid genotyping of Coxiella genomic sequences" assertion.
• RAnh-o0GrvBfvoyiruq9UnbZOaNcHbue5O-FU6300R_Jg%23SequenceQualityClaim text "The strength of in silico typing methods relies significantly on the quality of the input sequence" assertion.
• RAnh-o0GrvBfvoyiruq9UnbZOaNcHbue5O-FU6300R_Jg%23InSilicoTypingClaim text "In silico typing can be an indispensable tool for rapid genotyping of Coxiella genomic sequences" assertion.
• RAnh-o0GrvBfvoyiruq9UnbZOaNcHbue5O-FU6300R_Jg%23SequenceQualityClaim text "The strength of in silico typing methods relies significantly on the quality of the input sequence" assertion.
• RA4TkcJzz1U1F2f3Mh29t1N0eYXyPFltTxbk9t0Y_v-AU text "CoLoC-seq is a novel subcellular transcriptomics approach that uses enzymatic kinetics to distinguish genuine organellar resident RNAs from surface-attached contaminants." assertion.
• RAMVUimnATifJYJw0VP2zAesw4OK_Gw30p9NgcEU4oVW8 text "CoLoC-seq is a novel subcellular transcriptomics approach that uses enzymatic kinetics to distinguish genuine organellar resident RNAs from surface-attached contaminants." assertion.
• RA_C-L7pLBKSyHDhS2YIFmqfb_-BLGOldcUb8emWvRltA text "The CoLoC-seq kinetics model uses the protected pool parameter P0 to distinguish genuinely localised organellar transcripts from surface-attached contaminants based on their degradation dynamics." assertion.
• RAqWgWTy_lLfUrvdgqP0lggMHH_Of_5TgmpDWkpxe16gg text "The mock CoLoC-seq control experiment uses detergent-permeabilized membranes to detect false positives and distinguish genuine organellar protection from intrinsic RNase resistance." assertion.
• RAnGxpTDHemPIuRP09a8Qq55oseUT_NnzlkZdSraEM0qY text "The CoLoC-seq kinetics model uses the protected pool parameter P0 to distinguish genuinely localised organellar transcripts from surface-attached contaminants based on their degradation dynamics." assertion.
• RA6_pOabaeorsg_3G0C-SqZUsvODlrcnWuCio2R-1aYrA text "CoLoC-seq validation in human mitochondria identified 351 transcripts, with mtDNA-encoded transcripts showing 100 percent protection and nDNA-encoded transcripts showing rapid degradation, demonstrating the method's accuracy." assertion.
• RALlmEPut18Vg-rl5s7_ZhVAnEy61gPXfDxQIFOXpqqbU text "The CoLoC-seq experimental protocol integrates organellar isolation, RNase gradient treatment, custom library preparation with selective sequencing of intact transcripts, and kinetics model-based bioinformatic analysis." assertion.
• RAZTGowlvcV7tu_Gi1DpIhq3KNCra6KQBgpAdqx7gSMrE text "CoLoC-seq advances subcellular transcriptomics by combining enzymatic kinetics with Mock control experiments to overcome false-positive limitations of conventional fractionation methods and eliminating the requirement for genetic modification." assertion.
• quotation-1 text "The small RNA omrA directly binds to the ribosome binding site of csgF mRNA, preventing its translation under oxidative stress." assertion.