Evidence of a New MoYpd1p Phosphotransferase Isoform in the Multistep Phosphorelay System of Magnaporthe oryzae

Bühring, Sri; Yemelin, Alexander; Michna, Thomas; Jacob, Stefan

doi:10.3390/jof7050389

Cited by 4 publications

(13 citation statements)

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“…Our studies reveal new, previously unknown interactions between MoYpd1p and different HKs that may facilitate and explain the diversity in signal transduction in M. oryzae and explain its virulence. The PPI analyses based on the three-dimensional (3D) structures of the isoforms and the HKs were modulated to gain insight into the physiological functions of MoYpd1p_T0 (MGG_07173T0), MoYpd1p_T1(MGG_07173T1) and MoYpd1p_T2 (Bühring et al 2021). Due to the unpredictable 3D model caused by the size of MoHik6p, it was impossible to calculate its interaction with isoforms.…”

Section: Resultsmentioning

confidence: 99%

“…Signaling systems, such as phosphorelay systems, generally use proteins containing HPt to transmit signals from sensor HKs to RRs (Alvarez and Georgellis 2022; Jacob et al 2022). Based on RNA-Seq and HPLC-MS/MS analyses, we previously hypothesized that AS may produce several different MoYpd1p isoforms with distinct physiological functions (Bühring et al 2021; Jacob and Thines 2017). Apart from MoSln1p and MoHik1p, MoYpd1p is likely to interact with one or more of the remaining eight HKs (MoHik2p-MoHik9p) identified in M. oryzae (Jacob et al 2014).…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, a third transcript isoform (MoYPD1_T3) was identified on the cDNA and protein level (Bühring et al 2021). In addition to its key role in the HOG signaling pathway, MoYPD1 appears to positively and negatively influence genes involved in other stress adaptation processes and virulence (Mohanan et al 2022).…”

Section: Introductionmentioning

confidence: 99%

“…Apart from MoSln1p and MoHik1p, eight further HKs are encoded in the genome of M. oryzae , which may also can perform protein-protein interactions (PPI) with MoYpd1p (Jacob et al 2014). Moreover, a third transcript isoform (MoYPD1_T3) was identified on the cDNA and protein level (Bühring et al 2021). In addition to its key role in the HOG signaling pathway, MoYPD1 appears to positively and negatively influence genes involved in other stress adaptation processes and virulence (Mohanan et al 2022).…”

Section: Introductionmentioning

confidence: 99%

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An array of signal-specific MoYpd1 isoforms determines full virulence in the pathogenic fungusMagnaporthe oryzae

Bühring,

Brunner,

Heeb

et al. 2023

Preprint

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Magnaporthe oryzae is placed first on a list of the world's top ten plant pathogens with the highest scientific and economic importance. The pathogen is highly evolved to sense environmental changes quickly to invade different tissues of its host plant successfully. Here, we found alternative splicing (AS) as a previously unknown mechanism of how the pathogen may handle rapidly changing situations during in planta growth. The AS facilitates the production of multiple mRNAs and, consequently, protein isoforms with distinct biological functions from a single gene. The locus MGG_07173 occurs only once in the genome of M. oryzae and encodes the phosphotransfer protein MoYpd1p, which plays an important role in the high osmolarity glycerol (HOG) signaling pathway for osmoregulation. Originating from this locus, at least three MoYPD1 isoforms are produced in a signal-specific manner. The transcript levels of these MoYPD1-isoforms were individually affected by external stress, which is equally present in host plant tissues. Potassium salt (KCI) stress raised MoYPD1_T0 and MoYPD1_T2 abundance, whereas osmotic stress by sorbitol elevates MoYPD1_T1 levels. In line with this, signal-specific nuclear translocation of green fluorescent protein-fused MoYpd1p isoforms in response to stress was observed. The protein isoforms MoYpd1p_T0 and MoYpd1p_T2 were detected in the nucleus following KCl treatment, whereas MoYpd1p_T1 did likewise upon sorbitol stress. Mutant strains that produce only one of the MoYpd1p isoforms are less virulent, suggesting a combination thereof is required to invade the host successfully. Using in silico protein-protein interaction studies, we were able to assign different roles to respective isoforms in the HOG signaling pathway and predicted interactions with other signaling pathways. In summary, we demonstrate the signal-specific production of MoYpd1p isoforms that individually increase signal diversity and orchestrate virulence in the rice blast fungus M. oryzae.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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An array of signal-specific MoYpd1 isoforms determines full virulence in the pathogenic fungusMagnaporthe oryzae

Bühring,

Brunner,

Heeb

et al. 2023

Preprint

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“…In filamentous fungi, the high-osmolarity glycerol (HOG) signaling pathway is present as a multistep phospho-relay system. Bühring et al [ 6 ] investigated the phosphotransferase system in the rice blast fungus Magnaporthe oryzae and addressed the question of how a single gene for a phosphotransfer protein may generate several isoforms to contribute to a multistep phospho-relay system. Their study indicates that alternative splicing is a promising mechanism to generate signal diversity in multistep phospho-relay systems.…”

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confidence: 99%

Special Issue “Signal Transductions in Fungi”

Kück

2022

JoF

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An array of signal-specific MoYpd1 isoforms determines full virulence in the pathogenic fungus Magnaporthe oryzae

Bühring,

Brunner,

Heeb

et al. 2024

Commun Biol

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Magnaporthe oryzae is placed first on a list of the world’s top ten plant pathogens with the highest scientific and economic importance. The locus MGG_07173 occurs only once in the genome of M. oryzae and encodes the phosphotransfer protein MoYpd1p, which plays an important role in the high osmolarity glycerol (HOG) signaling pathway for osmoregulation. Originating from this locus, at least three MoYPD1 isoforms are produced in a signal-specific manner. The transcript levels of these MoYPD1-isoforms were individually affected by external stress. Salt (KCI) stress raised MoYPD1_T0 abundance, whereas osmotic stress by sorbitol elevates MoYPD1_T1 levels. In line with this, signal-specific nuclear translocation of green fluorescent protein-fused MoYpd1p isoforms in response to stress was observed. Mutant strains that produce only one of the MoYpd1p isoforms are less virulent, suggesting a combination thereof is required to invade the host successfully. In summary, we demonstrate signal-specific production of MoYpd1p isoforms that individually increase signal diversity and orchestrate virulence in M. oryzae.

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Evidence of a New MoYpd1p Phosphotransferase Isoform in the Multistep Phosphorelay System of Magnaporthe oryzae

Cited by 4 publications

References 30 publications

An array of signal-specific MoYpd1 isoforms determines full virulence in the pathogenic fungusMagnaporthe oryzae

An array of signal-specific MoYpd1 isoforms determines full virulence in the pathogenic fungusMagnaporthe oryzae

Special Issue “Signal Transductions in Fungi”

An array of signal-specific MoYpd1 isoforms determines full virulence in the pathogenic fungus Magnaporthe oryzae

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