Fig. 4. Amino acid sequences alignment between TCS1 and candidate N in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Fig. 4 in Biosynthesis and emission of methyl hexanoate, the major constituent of floral scent of a night-blooming water lily Victoria cruziana

Jiang, Yifan
Liu, Guanhua
Zhang, Wanbo
Zhang, Chi
Chen, Xinlu
Chen, Yuchu
Yu, Cuiwei
Yu, Dongbei
Fu, Jianyu
Chen, Feng

November 2021

Fig. 4. Multiple sequence alignment of VcSABATHs with selected known SABATHs. Conserved residues are...

Fig. 7 in Genome-wide identification and characterization of genes involved in melatonin biosynthesis in Morus notabilis (wild mulberry)

Zheng, Sha
Zhu, Yingxue
Liu, Changying
Fan, Wei
Xiang, Zhonghuai
Zhao, Aichun

September 2021

Fig. 7. Biosynthetic pathway of melatonin. The black arrows identify the pathway in herbaceous and w...

Fig. 6 in Evolutionary changes in the glucosinolate biosynthetic capacity in species representing Capsella, Camelina and Neslia genera

Czerniawski, Paweł
Piasecka, Anna
Bednarek, Paweł

January 2021

Fig. 6. Diversification of CYP81F enzymes in the Camelineae species.A neighbor-joining tree of CYP81...

Fig. 5 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 5. Phylogenetic tree of N-methyltransferase amino acid sequences. Substrates of the enzymes are...

Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Zhou, Meng-zhen, Rothenberg, Dylan O'Neill, Zeng, Wen, Luo, Li, Yan, Chang-yu, Zeng, Zhen, Huang, Ya...

Fig. 6. N in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 6. N-methyltransferase gene expression patterns in different leaf positions of C. gymnogyna and...

Fig. 3 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 3. Gene annotation. (a) Venn diagram; (b) The results of volcano plots of differential genes be...

Fig. 1 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 1. Main metabolic pathway for the biosynthesis and biodegradation of Cf. SAM = S-adenosyl- L -m...

Fig. 2 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 2. Purine alkaloid content in different leaf positions of C. gymnogyna and other tea plants. Bu...

Fig. 4 in A single residue determines substrate preference in benzylisoquinoline alkaloid N-methyltransferases

Morris, Jeremy S.
Yu, Lisa
Facchini, Peter J.

February 2020

Fig. 4. Superimposition of residue 204 identity on a maximum-likelihood phylogenetic analysis of N-m...

Fig. 2 in Sequencing and variation of terpene synthase gene (TPS2) as the major gene in biosynthesis of thymol in different Thymus species

Tohidi, Behnaz
Rahimmalek, Mehdi
Arzani, Ahmad
Trindade, Helena

January 2020

Fig. 2. Amino acid alignment of Ttps2 sequences of nine studied Thymus species. The four motifs, con...

Fig. 1 in Molecular and biochemical characterization of Catharanthus roseus perivine-N -methyltransferase

Levac, Dylan
C, Paulo
Flores, azares
Luca, Vincenzo De

September 2022

Fig. 1. The assembly of monoterpenoid indole alkaloids in different plant species involve substrate ...

Fig. 1 in A single residue determines substrate preference in benzylisoquinoline alkaloid N-methyltransferases

Morris, Jeremy S.
Yu, Lisa
Facchini, Peter J.

February 2020

Fig. 1. Involvement of N-methyltransferases in BIA biosynthesis. Coclaurine N-methyltransferase (CNM...

Fig. 8 in Evolutionary changes in the glucosinolate biosynthetic capacity in species representing Capsella, Camelina and Neslia genera

Czerniawski, Paweł
Piasecka, Anna
Bednarek, Paweł

January 2021

Fig. 8. IGMT phylogenetic tree is incongruent with the phylogeny of the investigated species. A neig...

Fig. 1 in Alkaloid chemophenetics and transcriptomics of the Nicotiana genus

Kaminski, Kacper Piotr
Bovet, Lucien
Laparra, Helene
Lang, Gerhard
Palo, Damien De
Sierro, Nicolas
Goepfert, Simon
Ivanov, Nikolai V.

September 2020

Fig. 1. Current state-of-the-art picture of alkaloid biosynthesis in Nicotiana genus. Gene acronyms ...

Fig. 4 in Biosynthesis and emission of methyl hexanoate, the major constituent of floral scent of a night-blooming water lily Victoria cruziana

Jiang, Yifan
Liu, Guanhua
Zhang, Wanbo
Zhang, Chi
Chen, Xinlu
Chen, Yuchu
Yu, Cuiwei
Yu, Dongbei
Fu, Jianyu
Chen, Feng

November 2021

Fig. 4. Multiple sequence alignment of VcSABATHs with selected known SABATHs. Conserved residues are...

Fig. 7 in Genome-wide identification and characterization of genes involved in melatonin biosynthesis in Morus notabilis (wild mulberry)

Zheng, Sha
Zhu, Yingxue
Liu, Changying
Fan, Wei
Xiang, Zhonghuai
Zhao, Aichun

September 2021

Fig. 7. Biosynthetic pathway of melatonin. The black arrows identify the pathway in herbaceous and w...

Fig. 6 in Evolutionary changes in the glucosinolate biosynthetic capacity in species representing Capsella, Camelina and Neslia genera

Czerniawski, Paweł
Piasecka, Anna
Bednarek, Paweł

January 2021

Fig. 6. Diversification of CYP81F enzymes in the Camelineae species.A neighbor-joining tree of CYP81...

Fig. 5 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 5. Phylogenetic tree of N-methyltransferase amino acid sequences. Substrates of the enzymes are...

Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Zhou, Meng-zhen, Rothenberg, Dylan O'Neill, Zeng, Wen, Luo, Li, Yan, Chang-yu, Zeng, Zhen, Huang, Ya...

Fig. 6. N in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 6. N-methyltransferase gene expression patterns in different leaf positions of C. gymnogyna and...

Fig. 3 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 3. Gene annotation. (a) Venn diagram; (b) The results of volcano plots of differential genes be...

Fig. 1 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 1. Main metabolic pathway for the biosynthesis and biodegradation of Cf. SAM = S-adenosyl- L -m...

Fig. 2 in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Zhou, Meng-zhen
Rothenberg, Dylan O'Neill
Zeng, Wen
Luo, Li
Yan, Chang-yu
Zeng, Zhen
Huang, Ya-hui

July 2022

Fig. 2. Purine alkaloid content in different leaf positions of C. gymnogyna and other tea plants. Bu...

Fig. 4 in A single residue determines substrate preference in benzylisoquinoline alkaloid N-methyltransferases

Morris, Jeremy S.
Yu, Lisa
Facchini, Peter J.

February 2020

Fig. 4. Superimposition of residue 204 identity on a maximum-likelihood phylogenetic analysis of N-m...

Fig. 2 in Sequencing and variation of terpene synthase gene (TPS2) as the major gene in biosynthesis of thymol in different Thymus species

Tohidi, Behnaz
Rahimmalek, Mehdi
Arzani, Ahmad
Trindade, Helena

January 2020

Fig. 2. Amino acid alignment of Ttps2 sequences of nine studied Thymus species. The four motifs, con...

Fig. 1 in Molecular and biochemical characterization of Catharanthus roseus perivine-N -methyltransferase

Levac, Dylan
C, Paulo
Flores, azares
Luca, Vincenzo De

September 2022

Fig. 1. The assembly of monoterpenoid indole alkaloids in different plant species involve substrate ...

Fig. 1 in A single residue determines substrate preference in benzylisoquinoline alkaloid N-methyltransferases

Morris, Jeremy S.
Yu, Lisa
Facchini, Peter J.

February 2020

Fig. 1. Involvement of N-methyltransferases in BIA biosynthesis. Coclaurine N-methyltransferase (CNM...

Fig. 8 in Evolutionary changes in the glucosinolate biosynthetic capacity in species representing Capsella, Camelina and Neslia genera

Czerniawski, Paweł
Piasecka, Anna
Bednarek, Paweł

January 2021

Fig. 8. IGMT phylogenetic tree is incongruent with the phylogeny of the investigated species. A neig...

Fig. 1 in Alkaloid chemophenetics and transcriptomics of the Nicotiana genus

Kaminski, Kacper Piotr
Bovet, Lucien
Laparra, Helene
Lang, Gerhard
Palo, Damien De
Sierro, Nicolas
Goepfert, Simon
Ivanov, Nikolai V.

September 2020

Fig. 1. Current state-of-the-art picture of alkaloid biosynthesis in Nicotiana genus. Gene acronyms ...

Fig. 4 in Biosynthesis and emission of methyl hexanoate, the major constituent of floral scent of a night-blooming water lily Victoria cruziana

Jiang, Yifan
Liu, Guanhua
Zhang, Wanbo
Zhang, Chi
Chen, Xinlu
Chen, Yuchu
Yu, Cuiwei
Yu, Dongbei
Fu, Jianyu
Chen, Feng

November 2021

Fig. 4. Multiple sequence alignment of VcSABATHs with selected known SABATHs. Conserved residues are...

Fig. 7 in Genome-wide identification and characterization of genes involved in melatonin biosynthesis in Morus notabilis (wild mulberry)

Zheng, Sha
Zhu, Yingxue
Liu, Changying
Fan, Wei
Xiang, Zhonghuai
Zhao, Aichun

September 2021

Fig. 7. Biosynthetic pathway of melatonin. The black arrows identify the pathway in herbaceous and w...

Fig. 6 in Evolutionary changes in the glucosinolate biosynthetic capacity in species representing Capsella, Camelina and Neslia genera

Czerniawski, Paweł
Piasecka, Anna
Bednarek, Paweł

January 2021

Fig. 6. Diversification of CYP81F enzymes in the Camelineae species.A neighbor-joining tree of CYP81...

Fig. 4. Amino acid sequences alignment between TCS1 and candidate N in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Abstract

Extracted data

Fig. 4. Amino acid sequences alignment between TCS1 and candidate N in Discovery and Biochemical Characterization of N-methyltransferase Genes Involved in Purine Alkaloid Biosynthetic Pathway of Camellia gymnogyna Hung T.Chang (Theaceae) from Dayao Mountain

Abstract

Extracted data

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