Graphs depicting the material mineralization of the cortex at the (A) Condyle, (B) Attachment of the masseter, (C) The part below the second tooth. by Natsuko Hichijo (752937)

Table_1_Association of rs2910164 in miR-146a with type 2 diabetes mellitus: A case–control and meta-analysis study.xlsx by Wei-Wei Chang (1676215)

“…Second, a meta-analysis on the basis of a larger sample size was used to determine whether this is a susceptibility gene for T2DM.…”

Image_3_Involvement of Transcription Elongation Factor GreA in Mycobacterium Viability, Antibiotic Susceptibility, and Intracellular Fitness.tif by Siyuan Feng (5998040)

“…<p>There is growing evidence that GreA aids adaptation to stressful environments in various bacteria. …”

Data Sheet 1_Neuronal expression of S100B triggered by oligomeric Aβ peptide contributes to protection against cytoskeletal damage and synaptic loss.docx by Joana Saavedra (11327910)

“…Using primary cultures of rat hippocampal neurons, we showed that S100B partially reverts Aβ-induced cofilin-actin rods (synapse disruptors), and rescues the decrease in active synapses and post-synaptic marker (PSD-95), imposed by Aβ peptide. …”

Image_1_Teicoplanin associated gene tcaA inactivation increases persister cell formation in Staphylococcus aureus.JPEG by Gul Habib (17140723)

“…The RNA-seq data revealed a significant decrease in tcaA (p = 0.008) and tcaB (p = 0.04) expression while tcaR was not significantly altered. …”

Table_1_Involvement of Transcription Elongation Factor GreA in Mycobacterium Viability, Antibiotic Susceptibility, and Intracellular Fitness.xlsx by Siyuan Feng (5998040)

“…<p>There is growing evidence that GreA aids adaptation to stressful environments in various bacteria. …”

Table_1_Mechanism of the Potential Therapeutic Candidate Bacillus subtilis BSXE-1601 Against Shrimp Pathogenic Vibrios and Multifunctional Metabolites Biosynthetic Capability of th... by Dongdong Wang (742338)

“…Thus, therapeutic strategies are highly needed to decrease the risk of vibriosis outbreaks. Herein, we initially identified that the growth of the causative agent of AHPND, Vibrio parahaemolyticus (VP_AHPND) and other vibrios in Pacific white shrimp (Litopenaeus vannamei) was inhibited by a Bacillus subtilis strain BSXE-1601. …”

Table_3_Involvement of Transcription Elongation Factor GreA in Mycobacterium Viability, Antibiotic Susceptibility, and Intracellular Fitness.xlsx by Siyuan Feng (5998040)

“…<p>There is growing evidence that GreA aids adaptation to stressful environments in various bacteria. …”

Table_4_Involvement of Transcription Elongation Factor GreA in Mycobacterium Viability, Antibiotic Susceptibility, and Intracellular Fitness.xlsx by Siyuan Feng (5998040)

“…<p>There is growing evidence that GreA aids adaptation to stressful environments in various bacteria. …”

Image_2_Involvement of Transcription Elongation Factor GreA in Mycobacterium Viability, Antibiotic Susceptibility, and Intracellular Fitness.TIF by Siyuan Feng (5998040)

“…<p>There is growing evidence that GreA aids adaptation to stressful environments in various bacteria. …”

Data_Sheet_1_Studies on the Regulation of (p)ppGpp Metabolism and Its Perturbation Through the Over-Expression of Nudix Hydrolases in Escherichia coli.PDF by Rajeshree Sanyal (9522002)

“…We found that, although greatly diminished, there was slow ppGpp degradation and growth resumption after a lag period, concomitant with decrease in ppGpp pool. …”

Image_1_Involvement of Transcription Elongation Factor GreA in Mycobacterium Viability, Antibiotic Susceptibility, and Intracellular Fitness.TIF by Siyuan Feng (5998040)

“…<p>There is growing evidence that GreA aids adaptation to stressful environments in various bacteria. …”

Table_2_Involvement of Transcription Elongation Factor GreA in Mycobacterium Viability, Antibiotic Susceptibility, and Intracellular Fitness.xlsx by Siyuan Feng (5998040)

“…<p>There is growing evidence that GreA aids adaptation to stressful environments in various bacteria. …”

Data_Sheet_1_Transcriptional Response of Streptomyces coelicolor to Rapid Chromosome Relaxation or Long-Term Supercoiling Imbalance.pdf by Marcin Jan Szafran (6944060)

“…Remarkably, in S. coelicolor, a model Streptomyces species, topoisomerase I (TopA) is solely responsible for the removal of negative DNA supercoils. …”

Table_5_Transcriptional Response of Streptomyces coelicolor to Rapid Chromosome Relaxation or Long-Term Supercoiling Imbalance.pdf by Marcin Jan Szafran (6944060)

“…Remarkably, in S. coelicolor, a model Streptomyces species, topoisomerase I (TopA) is solely responsible for the removal of negative DNA supercoils. …”

Table_3_Transcriptional Response of Streptomyces coelicolor to Rapid Chromosome Relaxation or Long-Term Supercoiling Imbalance.xlsx by Marcin Jan Szafran (6944060)

“…Remarkably, in S. coelicolor, a model Streptomyces species, topoisomerase I (TopA) is solely responsible for the removal of negative DNA supercoils. …”

Table_4_Transcriptional Response of Streptomyces coelicolor to Rapid Chromosome Relaxation or Long-Term Supercoiling Imbalance.xlsx by Marcin Jan Szafran (6944060)

“…Remarkably, in S. coelicolor, a model Streptomyces species, topoisomerase I (TopA) is solely responsible for the removal of negative DNA supercoils. …”

Table_2_Transcriptional Response of Streptomyces coelicolor to Rapid Chromosome Relaxation or Long-Term Supercoiling Imbalance.xlsx by Marcin Jan Szafran (6944060)

“…Remarkably, in S. coelicolor, a model Streptomyces species, topoisomerase I (TopA) is solely responsible for the removal of negative DNA supercoils. …”

Table_1_Transcriptional Response of Streptomyces coelicolor to Rapid Chromosome Relaxation or Long-Term Supercoiling Imbalance.xlsx by Marcin Jan Szafran (6944060)

“…Remarkably, in S. coelicolor, a model Streptomyces species, topoisomerase I (TopA) is solely responsible for the removal of negative DNA supercoils. …”

Simulation fit for 2009 A(H1N1) in Mexico City. by Louis Kim (6293891)