Isolation and characterization of tambjamine MYP1, a macrocyclic tambjamine analogue from marine bacterium<i>Pseudoalteromonas citrea</i>

Picott, Katherine J.; Deichert, Julie A.; deKemp, Ella M.; Schatte, Gabriele; Sauriol, Françoise; Ross, Avena C.

doi:10.1039/c9md00061e

Cited by 28 publications

(40 citation statements)

References 37 publications

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“…Marinoquinoline A is an anticancer alkaloid produced by Catalinimonas alkaloidigena, a marine bacterium [36] along with 13 other alkaloid metabolites. Pseudoalteromonas tunicata and P. citrea are two marine bacteria that secrete a yellow-pigmented alkaloid that belongs to a group called tambjamines, and this showed anti-tumor activity along with antimicrobial, antifungal, and antimalarial activity [37,38]. Calothrixins A and B are alkaloids containing a phenanthridine moiety that are isolated from Calothrix sp.…”

Section: Alkaloidsmentioning

confidence: 99%

“…Pitipeptolides A (40), and B (41) ( Figure 6), cyclic depsipeptides isolated from a marine cyanobacterium Lyngbya majuscule, were Obyanamide (37) (Figure 6), a cyclic depsipeptide isolated from lyngbya confervoides, has demonstrated significant cytotoxicity to the kB and LoVo cells [114]. Palau'amide (38) (Figure 6) is a cyclical depsipeptide isolated from the same marine cyanobacteria Lyngbya sp., which has shown significant cytotoxicity to kB cells [115]. Palmyramide A (39) contributes to cytotoxicity in neuro-2a cells possibly through blocking the voltage regulated sodium channel.…”

Section: Peptidesmentioning

confidence: 99%

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Marine Cyanobacteria and Microalgae Metabolites—A Rich Source of Potential Anticancer Drugs

Mondal¹,

Bose

Banerjee³

et al. 2020

Marine Drugs

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Cancer is at present one of the utmost deadly diseases worldwide. Past efforts in cancer research have focused on natural medicinal products. Over the past decades, a great deal of initiatives was invested towards isolating and identifying new marine metabolites via pharmaceutical companies, and research institutions in general. Secondary marine metabolites are looked at as a favorable source of potentially new pharmaceutically active compounds, having a vast structural diversity and diverse biological activities; therefore, this is an astonishing source of potentially new anticancer therapy. This review contains an extensive critical discussion on the potential of marine microbial compounds and marine microalgae metabolites as anticancer drugs, highlighting their chemical structure and exploring the underlying mechanisms of action. Current limitation, challenges, and future research pathways were also presented.

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Section: Alkaloidsmentioning

confidence: 99%

Section: Peptidesmentioning

confidence: 99%

Marine Cyanobacteria and Microalgae Metabolites—A Rich Source of Potential Anticancer Drugs

Mondal¹,

Bose

Banerjee³

et al. 2020

Marine Drugs

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“…PigC is the condensation enzyme responsible for C−C bond formation in prodigiosin biosynthesis, while, TamQ forms a N−C bond between MBC and cis ‐dodec‐3‐en‐1‐amine (DDEA) in the biosynthesis of tambjamine YP1 and tambjamine MYP1 in P. tunicata and Pseudoalteromonas citrea , respectively (Figure B) . Although the two catalytic reactions result in differing atom connectivity, the terminal condensation enzymes are conserved with high sequence similarity in all prodiginine and tambjamine BGCs .…”

Section: Introductionmentioning

confidence: 99%

“…In this work, we describe the first successful cloning and purification of soluble PigC from prodigiosin producer Pseudoalteromonas rubra DSM 6842, and TamQ from tambjamine MYP1 producer P. citrea DSM 8771 . The catalytic properties of PigC and TamQ are directly compared using in vitro kinetic analysis of each enzyme with native and modified substrates.…”

Section: Introductionmentioning

confidence: 99%

Purification and Kinetic Characterization of the Essential Condensation Enzymes Involved in Prodiginine and Tambjamine Biosynthesis

et al. 2019

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Prodiginines and tambjamines are related families of bioactive alkaloid natural products with pharmaceutical potential. Both compound families result from a convergent biosynthetic pathway ending in the condensation of a conserved bipyrrole core with a variable partner. This reaction is performed by unique condensation enzymes, and has the potential to be manipulated to produce new pyrrolic compounds. We have purified and reconstituted the in vitro activity of the condensation enzymes PigC and TamQ from Pseudoalteromonas sp., which are involved, respectively, in the prodiginine and tambjamine biosynthetic pathways. Kinetic analysis confirmed a Uni Uni Bi Uni ping‐pong reaction sequence with competitive and uncompetitive substrate inhibition for PigC and TamQ respectively. The kinetic parameters of each enzyme provide insight into their differing substrate scope, and suggest that TamQ may have evolved a wide substrate tolerance that can be used for the production of novel prodiginines and tambjamines.

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“…PigC is the condensation enzyme responsible for CÀC bond formation in prodigiosin biosynthesis, [20] while, TamQ forms a NÀC bond between MBC and cis-dodec-3-en-1-amine (DDEA) in the biosynthesis of tambjamine YP1 and tambjamine MYP1 in P. tunicata and Pseudoalteromonas citrea, respectively (Figure 1 B). [15,18,21,22] Although the two catalytic reactions result in differing atom connectivity, the terminal condensation enzymes are conserved with high sequence similarity in all prodiginine and tambjamine BGCs. [15,20,23,24] Currently, the limited information available about this enzyme family predominantly arises from studies on PigC from prodigiosin biosynthesis.…”

Section: Introductionmentioning

confidence: 99%

In Vitro Reconstitution and Kinetic Characterization of the Essential Condensation Enzymes Involved in Prodiginine and Tambjamine Biosynthesis

Kj¹,

Ja²,

Em³

et al. 2019

Preprint

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Isolation and characterization of tambjamine MYP1, a macrocyclic tambjamine analogue from marine bacteriumPseudoalteromonas citrea

Abstract: Identification of a macrocyclic tambjamine natural product, tambjamine MYP1, from a marine bacterium that may enhance bioactivity by restraining bond rotation.

Cited by 28 publications

References 37 publications

Marine Cyanobacteria and Microalgae Metabolites—A Rich Source of Potential Anticancer Drugs

Marine Cyanobacteria and Microalgae Metabolites—A Rich Source of Potential Anticancer Drugs

Purification and Kinetic Characterization of the Essential Condensation Enzymes Involved in Prodiginine and Tambjamine Biosynthesis

In Vitro Reconstitution and Kinetic Characterization of the Essential Condensation Enzymes Involved in Prodiginine and Tambjamine Biosynthesis

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