ASMR (A), ASDR (B), Age-Standardized Rate of YLDs (C), and Age-Standardized Rate of YLLs (D) of high alcohol use-related Stroke in both sexes combined in global in 2021. by Nannan Qian (10650782)

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)

“…We used the AD mouse model AβPPswe/PS1A246E to show that neuronal S100B levels are significantly higher in 10-month-old animals, and cellular assays to demonstrate that Aβ oligomers significantly increase S100B expression in SH-SY5Y cells, but not monomeric or fibrillar Aβ. …”

Transcriptomics Points-of-Departure (tPODs) to Support Hazard Assessment of Benzo[<i>a</i>]pyrene in Early-Life-Stage Rainbow Trout by Alper James Alcaraz (20977320)

“…Benchmark concentration analysis of transcriptomic responses at 4 dph, based on the most sensitive transcriptomic features, yielded tPODs between 0.028 and 0.47 μg/L B[<i>a</i>]P. At 28 dph, Cyp1a1 exhibited significantly increased catalytic activity, with biochemical POD, bPOD_EROD,28dph of 0.599 μg/L B[<i>a</i>]P, while morphometric analysis showed significant growth inhibition in terms of length, with apical POD, aPOD_length,28dph of 1.77 μg/L B[<i>a</i>]P, with a notable decreasing trend in body weight. …”

Transcriptomics Points-of-Departure (tPODs) to Support Hazard Assessment of Benzo[<i>a</i>]pyrene in Early-Life-Stage Rainbow Trout by Alper James Alcaraz (20977320)

“…Benchmark concentration analysis of transcriptomic responses at 4 dph, based on the most sensitive transcriptomic features, yielded tPODs between 0.028 and 0.47 μg/L B[<i>a</i>]P. At 28 dph, Cyp1a1 exhibited significantly increased catalytic activity, with biochemical POD, bPOD_EROD,28dph of 0.599 μg/L B[<i>a</i>]P, while morphometric analysis showed significant growth inhibition in terms of length, with apical POD, aPOD_length,28dph of 1.77 μg/L B[<i>a</i>]P, with a notable decreasing trend in body weight. …”

Transcriptomics Points-of-Departure (tPODs) to Support Hazard Assessment of Benzo[<i>a</i>]pyrene in Early-Life-Stage Rainbow Trout by Alper James Alcaraz (20977320)

“…Benchmark concentration analysis of transcriptomic responses at 4 dph, based on the most sensitive transcriptomic features, yielded tPODs between 0.028 and 0.47 μg/L B[<i>a</i>]P. At 28 dph, Cyp1a1 exhibited significantly increased catalytic activity, with biochemical POD, bPOD_EROD,28dph of 0.599 μg/L B[<i>a</i>]P, while morphometric analysis showed significant growth inhibition in terms of length, with apical POD, aPOD_length,28dph of 1.77 μg/L B[<i>a</i>]P, with a notable decreasing trend in body weight. …”

Transcriptomics Points-of-Departure (tPODs) to Support Hazard Assessment of Benzo[<i>a</i>]pyrene in Early-Life-Stage Rainbow Trout by Alper James Alcaraz (20977320)

“…Benchmark concentration analysis of transcriptomic responses at 4 dph, based on the most sensitive transcriptomic features, yielded tPODs between 0.028 and 0.47 μg/L B[<i>a</i>]P. At 28 dph, Cyp1a1 exhibited significantly increased catalytic activity, with biochemical POD, bPOD_EROD,28dph of 0.599 μg/L B[<i>a</i>]P, while morphometric analysis showed significant growth inhibition in terms of length, with apical POD, aPOD_length,28dph of 1.77 μg/L B[<i>a</i>]P, with a notable decreasing trend in body weight. …”

Transcriptomics Points-of-Departure (tPODs) to Support Hazard Assessment of Benzo[<i>a</i>]pyrene in Early-Life-Stage Rainbow Trout by Alper James Alcaraz (20977320)

“…Benchmark concentration analysis of transcriptomic responses at 4 dph, based on the most sensitive transcriptomic features, yielded tPODs between 0.028 and 0.47 μg/L B[<i>a</i>]P. At 28 dph, Cyp1a1 exhibited significantly increased catalytic activity, with biochemical POD, bPOD_EROD,28dph of 0.599 μg/L B[<i>a</i>]P, while morphometric analysis showed significant growth inhibition in terms of length, with apical POD, aPOD_length,28dph of 1.77 μg/L B[<i>a</i>]P, with a notable decreasing trend in body weight. …”

Transcriptomics Points-of-Departure (tPODs) to Support Hazard Assessment of Benzo[<i>a</i>]pyrene in Early-Life-Stage Rainbow Trout by Alper James Alcaraz (20977320)

“…Benchmark concentration analysis of transcriptomic responses at 4 dph, based on the most sensitive transcriptomic features, yielded tPODs between 0.028 and 0.47 μg/L B[<i>a</i>]P. At 28 dph, Cyp1a1 exhibited significantly increased catalytic activity, with biochemical POD, bPOD_EROD,28dph of 0.599 μg/L B[<i>a</i>]P, while morphometric analysis showed significant growth inhibition in terms of length, with apical POD, aPOD_length,28dph of 1.77 μg/L B[<i>a</i>]P, with a notable decreasing trend in body weight. …”

Transcriptomics Points-of-Departure (tPODs) to Support Hazard Assessment of Benzo[<i>a</i>]pyrene in Early-Life-Stage Rainbow Trout by Alper James Alcaraz (20977320)

“…Benchmark concentration analysis of transcriptomic responses at 4 dph, based on the most sensitive transcriptomic features, yielded tPODs between 0.028 and 0.47 μg/L B[<i>a</i>]P. At 28 dph, Cyp1a1 exhibited significantly increased catalytic activity, with biochemical POD, bPOD_EROD,28dph of 0.599 μg/L B[<i>a</i>]P, while morphometric analysis showed significant growth inhibition in terms of length, with apical POD, aPOD_length,28dph of 1.77 μg/L B[<i>a</i>]P, with a notable decreasing trend in body weight. …”

Table 1_Metabolic changes after growth hormone treatment in children with growth hormone deficiency and small for gestational age: LG observational study.docx by Sujin Kim (225506)

“…ALT levels significantly decreased in all follow-up years in the GHD group. …”

Image 2_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.jpeg by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Table 7_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.docx by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Image 3_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.jpeg by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Image 5_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.jpeg by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Table 4_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.xlsx by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Image 4_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.jpeg by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Table 1_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.xlsx by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Table 5_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.xlsx by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Table 6_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.xlsx by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”

Table 3_Profiling of small RNAs derived from tomato brown rugose fruit virus in infected Solanum lycopersicum plants by deep sequencing.xls by Mangle Chen (20639051)

“…Seven potential target genes were selected for qRT-PCR analysis, confirming that their transcript accumulation significantly decreased in the leaves of tomato plants infected with ToBRFV. …”