Modeling of Dolichol Mass Spectra Isotopic Envelopes as a Tool to Monitor Isoprenoid Biosynthesis

Jóźwiak, Adam; Lipko, Agata; Kania, Magdalena; Danikiewicz, Witold; Surmacz, Liliana; Witek, Agnieszka; Wójcik, Jacek; Zdanowski, Konrad; Pączkowski, Cezary; Chojnacki, Tadeusz; Poznański, Jarosław; Świeżewska, Ewa

doi:10.1104/pp.17.00036

Cited by 24 publications

(30 citation statements)

References 60 publications

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“…3a). The specific labeling pattern of isoprene units resulting from glucose metabolism via glycolysis and incorporation through the mevalonate and MEP pathway are well established 17,18 . Because both the mevalonate and dolichol pathway are inactive in human RBCs 4 , only MEP pathway-specific labeling patterns are observed in P. falciparum infected RBCs 4,8,9 . Highly synchronous infected RBCs in ring stage at 7% parasitemia were first incubated in glucose-free media for 2 h and then supplemented for 24 h with [1-13 C]glucose (4 g/L) which is known to be metabolized into [1,[5][6][7][8][9][10][11][12][13] C]IPP ( Fig.…”

Section: Medium-long Polyprenols and Dolichols Are Synthesized De Novmentioning

confidence: 99%

“…S1). The m/z shift toward higher molecular mass mirrors the stochastic distribution of the probability of incorporating differentially labeled 13 C-IPP into 13 C-polyprenols, and therefore 13 C-dolichols, which is determined by the remaining pool of native metabolic precursors in the cell that contain a 13 C natural abundance of ~1% and the number of 13 C-atoms incorporated into IPP based on the isotopic dilution due to metabolism 17,45 . As shown in Fig.…”

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confidence: 99%

“…Currently, we are attempting to generate an inducible knockout of PfCPT to further verify its predicted essentiality 37 . Nevertheless, further investigations are needed to verify that polyprenols can be phosphorylated and glycosylated as dolichols in the malaria parasite.As a result of several breakthroughs in the field of cis-polyisoprenoids 17,19,20 , new biological functions of these lipids are starting to be unveiled besides their known role in protein glycosylation. Further studies are still needed to answer why co-occurrence of polyprenols and dolichols is present in the malaria parasite as well as why cis-polyisoprenoid species change during the parasite's life cycle which may reveal new biological functions of these unique lipids.…”

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confidence: 99%

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confidence: 99%

“…These lipids are present in all membrane systems 15,16 but their biological functions besides protein glycosylation in the ER remains largely unknown. Recently, cis-polyisoprenoids gained special attention due to several breakthroughs in the field including improvements in the analytical techniques for their analysis 17,18 , partial identification of their enzymatic machinery 19 , and the discovery of new biological functions beyond glycosylation 20,21 . Among some of these biological functions are the regulation of the membrane fluidity 21 , stimulation of spore wall formation in yeast 20 , and scavenging free radicals in cell membranes [22][23][24] .…”

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confidence: 99%

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Metabolomics profiling reveals new aspects of dolichol biosynthesis inPlasmodium falciparum

Zimbres¹,

Valenciano²,

Merino³

et al. 2019

Preprint

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The cis-polyisoprenoid lipids namely polyprenols, dolichols and their derivatives are linear polymers of several isoprene units. In eukaryotes, polyprenols and dolichols are synthesized as a mixture of four or more homologues of different length with one or two predominant species with sizes varying among organisms. Polyprenols have been hardly detectable in eukaryotic cells under normal conditions with the exception of plants and sporulating yeast. Our metabolomics studies revealed that cis-polyisoprenoids are more prevalent and diverse in the parasite Plasmodium falciparum than previously postulated as we uncovered active de novo biosynthesis and substantial levels of accumulation of polyprenols and dolichols of 15 to 19 isoprene units. A distinctive polyprenol and dolichol profile both within the intraerythrocytic asexual cycle and between asexual and gametocyte stages was also observed suggesting that cis-polyisoprenoid biosynthesis changes throughout parasite's development. In addition, we confirmed the presence of an active cisprenyltransferase (PfCPT) and that dolichol biosynthesis occurs via reduction of the polyprenol to dolichol by an active polyprenol reductase (PfPPRD) in the malaria parasite. Isotopic labeling and metabolomic analyses of a conditional mutant of PfCPT or PfPPRD suggest that polyprenols may be able to substitute dolichols in their biological functions when dolichol synthesis is impaired in Plasmodium.Malaria is caused by protozoan parasites of the genus Plasmodium and most cases of lifethreatening malaria are attributable to infection with Plasmodium falciparum. The parasite has a complex life cycle that involves the human host and its vector, the Anopheles mosquitoes. All clinical features are caused during the asexual intraerythrocytic life cycle due to the repeated invasion of human red blood cells (RBCs). The asexual intraerythrocytic developmental cycle of P. falciparum lasts around 48 h, during which the parasite progresses through four morphologically different stages: ring, trophozoite, and schizont stages, ending with rupture of the erythrocyte and release of merozoites that will invade new erythrocytes. Transmission of the malaria parasite requires development of male and female gametocytes (gametocytogenesis), which are ingested by female mosquitoes during a blood meal and undergo sexual reproduction in the mosquito's midgut. Nondividing P. falciparum gametocytes take between 10 and 12 2 days to fully mature and progress through five morphologically distinct forms (stages I to V), which are different from other Plasmodium species.During their complex life cycle malaria parasites encounter different nutritional environments within and between hosts. The presence of de novo and salvage pathways gives parasites a great metabolic flexibility to cope with those changes 1,2 . For example, mature RBCs are capable of only a few metabolic functions since transcription and translation is not present in these cells. However, a wide variety of metabolites are available to the parasite i...

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Section: Medium-long Polyprenols and Dolichols Are Synthesized De Novmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Metabolomics profiling reveals new aspects of dolichol biosynthesis inPlasmodium falciparum

Zimbres¹,

Valenciano²,

Merino³

et al. 2019

Preprint

Self Cite

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Multiome in the Same Cell Reveals the Impact of Osmotic Stress on Arabidopsis Root Tip Development at Single‐Cell Level

Liu,

Ma,

Chen

et al. 2024

Advanced Science

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Cell‐specific transcriptional regulatory networks (TRNs) play vital roles in plant development and response to environmental stresses. However, traditional single‐cell mono‐omics techniques are unable to directly capture the relationships and dynamics between different layers of molecular information within the same cells. While advanced algorithm facilitates merging scRNA‐seq and scATAC‐seq datasets, accurate data integration remains a challenge, particularly when investigating cell‐type‐specific TRNs. By examining gene expression and chromatin accessibility simultaneously in 16,670 Arabidopsis root tip nuclei, the TRNs are reconstructed that govern root tip development under osmotic stress. In contrast to commonly used computational integration at cell‐type level, 12,968 peak‐to‐gene linkage is captured at the bona fide single‐cell level and construct TRNs at an unprecedented resolution. Furthermore, the unprecedented datasets allow to more accurately reconstruct the coordinated changes of gene expression and chromatin states during cellular state transition. During root tip development, chromatin accessibility of initial cells precedes gene expression, suggesting that changes in chromatin accessibility may prime cells for subsequent differentiation steps. Pseudo‐time trajectory analysis reveal that osmotic stress can shift the functional differentiation of trichoblast. Candidate stress‐related gene‐linked cis‐regulatory elements (gl‐cCREs) as well as potential target genes are also identified, and uncovered large cellular heterogeneity under osmotic stress.

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Genomics of Rubber Biosynthesis in Hevea brasiliensis

Chow

Bahari

Taylor

et al. 2020

The Rubber Tree Genome

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Modeling of Dolichol Mass Spectra Isotopic Envelopes as a Tool to Monitor Isoprenoid Biosynthesis

Cited by 24 publications

References 60 publications

Metabolomics profiling reveals new aspects of dolichol biosynthesis inPlasmodium falciparum

Metabolomics profiling reveals new aspects of dolichol biosynthesis inPlasmodium falciparum

Multiome in the Same Cell Reveals the Impact of Osmotic Stress on Arabidopsis Root Tip Development at Single‐Cell Level

Genomics of Rubber Biosynthesis in Hevea brasiliensis

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