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r version 4 4 2  (STATA Corporation)


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    STATA Corporation r version 4 4 2
    R Version 4 4 2, supplied by STATA Corporation, used in various techniques. Bioz Stars score: 99/100, based on 2441 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 99 stars, based on 2441 article reviews
    r version 4 4 2 - by Bioz Stars, 2026-07
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    (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, <t>and</t> <t>PF-04859989</t> inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.
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    (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, <t>and</t> <t>PF-04859989</t> inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.
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    (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, <t>and</t> <t>PF-04859989</t> inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.
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    (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, <t>and</t> <t>PF-04859989</t> inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.
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    (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, <t>and</t> <t>PF-04859989</t> inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.
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    (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, <t>and</t> <t>PF-04859989</t> inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.
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    Image Search Results


    (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, and PF-04859989 inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.

    Journal: bioRxiv

    Article Title: Auxin is metabolized through kynurenine in Hypericum perforatum L

    doi: 10.64898/2026.05.18.726114

    Figure Lengend Snippet: (A) Schematic representation of major tryptophan (Trp)-derived metabolic pathways, including the kynurenine pathway (center), the indole-3-pyruvic acid (IPA)–indole-3-acetic acid (IAA) pathway, and the tryptamine– serotonin–melatonin branch (top). Solid, dashed, and double boxes indicate metabolites reported in animals, plants, or both, respectively. Enzymes are indicated at each step: IDO1/IDO2 (indoleamine 2,3-dioxygenase), TDO (tryptophan 2,3-dioxygenase), AFMID (arylformamidase), KAT (kynurenine aminotransferase), TDC (tryptophan decarboxylase), TAA1/TAR (tryptophan aminotransferase), KYNU (kynureninase), KMO (kynurenine 3-monooxygenase), HAAO (3-hydroxyanthranilate 3,4-dioxygenase), ACMSD (α-amino-β-carboxymuconate-ε-semialdehyde decarboxylase), and QPRT (quinolinate phosphoribosyltransferase). Inhibitor targets are indicated at the corresponding steps: JM6 and RO 61-8048 inhibit KMO, and PF-04859989 inhibits KAT. (B) Chemical structures of the kynurenine pathway metabolites quantified in this study: kynurenine, kynurenic acid (KYNA), and 3-hydroxyanthranilic acid (3-HAA). (C) Chemical structures of the inhibitors used in this study. Core structural differences between JM6 and RO 61-8048 are highlighted in red.

    Article Snippet: The compound (R)-3-amino-1-hydroxy-3,4-dihydroquinolin-2(1H)-one (PF-04859989) was identified by a high-throughput screen of the Pfizer compound library as a high-affinity inhibitor of human kynurenine aminotransferase (KAT; ).

    Techniques: Derivative Assay

    ( A) Representative images of explants cultured on MSO (control), kynurenine (KYN), indole-3-acetic acid (IAA), and IAA combined with inhibitors (IAA + JM6, IAA + PF-04859989 [PF], and IAA + RO 61-8048 [RO]). Scale bar = 1 cm (B) Rooting frequency, (C) internodal length (cm per node), (D) root number, and (E) maximum root length (cm) of explants under each treatment. For rooting frequency (B), bars represent mean proportion rooted ± SE. For (C–E), boxplots represent median (center line), interquartile range (box), and range (whiskers). Differences relative to the MSO control were evaluated using Dunnett-adjusted contrasts (p < 0.05; n = 12–18 per treatment).

    Journal: bioRxiv

    Article Title: Auxin is metabolized through kynurenine in Hypericum perforatum L

    doi: 10.64898/2026.05.18.726114

    Figure Lengend Snippet: ( A) Representative images of explants cultured on MSO (control), kynurenine (KYN), indole-3-acetic acid (IAA), and IAA combined with inhibitors (IAA + JM6, IAA + PF-04859989 [PF], and IAA + RO 61-8048 [RO]). Scale bar = 1 cm (B) Rooting frequency, (C) internodal length (cm per node), (D) root number, and (E) maximum root length (cm) of explants under each treatment. For rooting frequency (B), bars represent mean proportion rooted ± SE. For (C–E), boxplots represent median (center line), interquartile range (box), and range (whiskers). Differences relative to the MSO control were evaluated using Dunnett-adjusted contrasts (p < 0.05; n = 12–18 per treatment).

    Article Snippet: The compound (R)-3-amino-1-hydroxy-3,4-dihydroquinolin-2(1H)-one (PF-04859989) was identified by a high-throughput screen of the Pfizer compound library as a high-affinity inhibitor of human kynurenine aminotransferase (KAT; ).

    Techniques: Cell Culture, Control

    (A–C) Representative extracted ion chromatograms (EICs) of PF-04859989 (A), RO 61-8048 (B), and JM6 (KMO inhibitor II) (C) detected in plant tissue by LC–HRMS. Each panel shows the precursor ion trace at the expected m/z and retention time. (D–F) Relative abundance of PF (D), RO (E), and JM6 (F) in roots and shoots following treatment with MSO (control), inhibitor alone, or IAA + inhibitor. Peak areas are shown as log□□-transformed values. Boxplots represent median (center line), interquartile range (box), and range (whiskers). Signals corresponding to each inhibitor were observed in treated tissues and were not detected in MSO controls. Detection was also observed in IAA co-application treatments.

    Journal: bioRxiv

    Article Title: Auxin is metabolized through kynurenine in Hypericum perforatum L

    doi: 10.64898/2026.05.18.726114

    Figure Lengend Snippet: (A–C) Representative extracted ion chromatograms (EICs) of PF-04859989 (A), RO 61-8048 (B), and JM6 (KMO inhibitor II) (C) detected in plant tissue by LC–HRMS. Each panel shows the precursor ion trace at the expected m/z and retention time. (D–F) Relative abundance of PF (D), RO (E), and JM6 (F) in roots and shoots following treatment with MSO (control), inhibitor alone, or IAA + inhibitor. Peak areas are shown as log□□-transformed values. Boxplots represent median (center line), interquartile range (box), and range (whiskers). Signals corresponding to each inhibitor were observed in treated tissues and were not detected in MSO controls. Detection was also observed in IAA co-application treatments.

    Article Snippet: The compound (R)-3-amino-1-hydroxy-3,4-dihydroquinolin-2(1H)-one (PF-04859989) was identified by a high-throughput screen of the Pfizer compound library as a high-affinity inhibitor of human kynurenine aminotransferase (KAT; ).

    Techniques: Control, Transformation Assay

    Concentrations of (A, D) kynurenic acid (KYNA), (B, E) kynurenine (KYN), and (C, F) 3-hydroxyanthranilic acid (3-HAA) in shoots (A–C) and roots (D–F) of explants cultured on MSO (control), IAA, or IAA combined with kynurenine pathway inhibitors (IAA + JM6, IAA + PF-04859989, and IAA + RO 61-8048). Concentrations are shown as log□□ (ng g −1 FW). Boxplots represent median (center line), interquartile range (box), and range (whiskers). For shoots (A–C), different letters indicate significant differences among treatments (one-way ANOVA followed by Tukey’s HSD, p < 0.05; n = 3). For roots (D–F), differences relative to the MSO control were evaluated using Dunnett-adjusted contrasts (p < 0.05; n = 3).

    Journal: bioRxiv

    Article Title: Auxin is metabolized through kynurenine in Hypericum perforatum L

    doi: 10.64898/2026.05.18.726114

    Figure Lengend Snippet: Concentrations of (A, D) kynurenic acid (KYNA), (B, E) kynurenine (KYN), and (C, F) 3-hydroxyanthranilic acid (3-HAA) in shoots (A–C) and roots (D–F) of explants cultured on MSO (control), IAA, or IAA combined with kynurenine pathway inhibitors (IAA + JM6, IAA + PF-04859989, and IAA + RO 61-8048). Concentrations are shown as log□□ (ng g −1 FW). Boxplots represent median (center line), interquartile range (box), and range (whiskers). For shoots (A–C), different letters indicate significant differences among treatments (one-way ANOVA followed by Tukey’s HSD, p < 0.05; n = 3). For roots (D–F), differences relative to the MSO control were evaluated using Dunnett-adjusted contrasts (p < 0.05; n = 3).

    Article Snippet: The compound (R)-3-amino-1-hydroxy-3,4-dihydroquinolin-2(1H)-one (PF-04859989) was identified by a high-throughput screen of the Pfizer compound library as a high-affinity inhibitor of human kynurenine aminotransferase (KAT; ).

    Techniques: Cell Culture, Control

    Indole-3-acetic acid (IAA) is primarily synthesized from tryptophan through the indole-3-pyruvate (IPyA) pathway via tryptophan aminotransferase (TAA) and YUCCA flavin monooxygenase (YUC). Free IAA may be regulated through conjugation, catabolism, oxidative transformation and through feedback effects on tryptophan-derived metabolism. Kynurenine pathway metabolism proceeds through N-formyl-kynurenine and kynurenine, which occupies a central branch point between kynurenic acid formation via kynurenine aminotransferase (KAT) and downstream oxidative metabolism toward 3-hydroxyanthranilic acid (3-HAA) via kynurenine monooxygenase (KMO). Reactive oxygen species (ROS), temperature, drought, iron, and Fe 2+ are shown as potential stress and redox inputs that may influence auxin and kynurenine-associated metabolism. The pharmacological inhibitors used in this study are shown at their proposed targets: PF-04859989 at KAT, and RO-61-8048 and JM6 at kynurenine monooxygenase (KMO). Dashed arrows indicate proposed interactions linking auxin catabolism or oxidative transformation with kynurenine-associated metabolite accumulation and potential feedback on tryptophan-dependent auxin biosynthesis.

    Journal: bioRxiv

    Article Title: Auxin is metabolized through kynurenine in Hypericum perforatum L

    doi: 10.64898/2026.05.18.726114

    Figure Lengend Snippet: Indole-3-acetic acid (IAA) is primarily synthesized from tryptophan through the indole-3-pyruvate (IPyA) pathway via tryptophan aminotransferase (TAA) and YUCCA flavin monooxygenase (YUC). Free IAA may be regulated through conjugation, catabolism, oxidative transformation and through feedback effects on tryptophan-derived metabolism. Kynurenine pathway metabolism proceeds through N-formyl-kynurenine and kynurenine, which occupies a central branch point between kynurenic acid formation via kynurenine aminotransferase (KAT) and downstream oxidative metabolism toward 3-hydroxyanthranilic acid (3-HAA) via kynurenine monooxygenase (KMO). Reactive oxygen species (ROS), temperature, drought, iron, and Fe 2+ are shown as potential stress and redox inputs that may influence auxin and kynurenine-associated metabolism. The pharmacological inhibitors used in this study are shown at their proposed targets: PF-04859989 at KAT, and RO-61-8048 and JM6 at kynurenine monooxygenase (KMO). Dashed arrows indicate proposed interactions linking auxin catabolism or oxidative transformation with kynurenine-associated metabolite accumulation and potential feedback on tryptophan-dependent auxin biosynthesis.

    Article Snippet: The compound (R)-3-amino-1-hydroxy-3,4-dihydroquinolin-2(1H)-one (PF-04859989) was identified by a high-throughput screen of the Pfizer compound library as a high-affinity inhibitor of human kynurenine aminotransferase (KAT; ).

    Techniques: Synthesized, Conjugation Assay, Transformation Assay, Derivative Assay