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1. Delayed leaf greening involves a major shift in the expression of cytosolic and mitochondrial ribosomes to plastid ribosomes in the highly phosphorus-use-efficient Hakea prostrata (Proteaceae)

   https://doi.org/10.1007/s11104-023-06275-1  

   Bird, Toby ; Nestor, Benjamin J. ; Bayer, Philipp E. ; Wang, Guannan ; Ilyasova, Albina ; Gille, Clément E. ; Soraru, Bryce E. H. ; Ranathunge, Kosala ; Severn-Ellis, Anita A. ; Jost, Ricarda ; et al ( September 2023 , Plant and Soil)

   Hakea prostrata(Proteaceae) is a highly phosphorus-use-efficient plant native to southwest Australia. It maintains a high photosynthetic rate at low leaf phosphorus (P) and exhibits delayed leaf greening, a convergent adaptation that increases nutrient-use efficiency. This study aimed to provide broad physiological and gene expression profiles across leaf development, uncovering pathways leading from young leaves as nutrient sinks to mature leaves as low-nutrient, energy-transducing sources.

   To explore gene expression underlying delayed greening, we analysed a de novo transcriptome forH. prostrataacross five stages of leaf development. Photosynthesis and respiration rates, and foliar pigment, P and nitrogen (N) concentrations were determined, including the division of P into five biochemical fractions.

   Transcripts encoding functions associated with leaf structure generally decreased in abundance across leaf development, concomitant with decreases in foliar concentrations of 85% for anthocyanins, 90% for P and 70% for N. The expression of genes associated with photosynthetic function increased during or after leaf expansion, in parallel with increases in photosynthetic pigments and activity, much later in leaf development than in species that do not have delayed greening. As leaves developed, transcript abundance for cytosolic and mitochondrial ribosomal proteins generally declined, whilst transcripts for chloroplast ribosomal proteins increased.

   There was a much longer temporal separation of leaf cell growth from chloroplast development inH. prostratathan is found in species that lack delayed greening. Transcriptome-guided analysis of leaf development inH. prostrataprovided insight into delayed greening as a nutrient-saving strategy in severely phosphorus-impoverished landscapes.

    

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2. GmMAX2–D14 and –KAI interaction‐mediated SL and KAR signaling play essential roles in soybean root nodulation

   https://doi.org/10.1111/tpj.14545  

   Ahmad, Muhammad Zulfiqar ; Rehman, Naveed ur ; Yu, Shuwei ; Zhou, Yuanze ; Haq, Basir ul ; Wang, Junjie ; Li, Penghui ; Zeng, Zhixiong ; Zhao, Jian ( November 2019 , The Plant Journal)

   Despite of important functions of strigolactones (SLs) and karrikins (KARs) in plant development, plant–parasite and plant–fungi interactions, their roles in soybean–rhizobia interaction remain elusive. SL/KAR signaling genesGmMAX2a, GmD14s,andGmKAIsare activated by rhizobia infection. GmMAX2a restoredatmax2root hair defects and soybean root hairs were changed inGmMAX2aoverexpression (GmMAX2a‐OE) or knockdown (GmMAX2a‐KD) mutants.GmMAX2a‐KDgave fewer, whereasGmMAX2a‐OEproduced more nodules than GUS hairy roots. Mutation ofGmMAX2ain itsKDorOEtransgenic hairy roots affected the rhizobia infection‐induced increases in early nodulation gene expression. Both mutant hairy roots also displayed the altered auxin, jasmonate and abscisic acid levels, as further verified by transcriptomic analyses of their synthetic genes. Overexpression of an auxin synthetic geneGmYUC2aalso affected SL and KAR signaling genes. GmMAX2a physically interacted with SL/KAR receptors GmD14s, GmKAIs, and GmD14Ls with different binding affinities, depending on variations in the critical amino acids, forming active D14/KAI‐SCF^MAX2complexes. The knockdown mutant roots of the nodule‐specifically expressingGmKAIs andGmD14Ls gave fewer nodules, with altered expression of several early nodulation genes. The expression levels ofGmKAIs, andGmD14Ls were markedly changed inGmMAX2amutant roots, so did their target repressor genesGmD53s andGmSMAX1s. Thus, SL and KAR signaling were involved in soybean–rhizobia interaction and nodulation partly through interactions with hormones, and this may explain the different effects of MXA2 orthologs on legume determinate and indeterminate nodulation. The study provides fresh insights into the roles of GmMAX2‐mediated SL/KAR signaling in soybean root hair and nodule formation.

    

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3. Differential alternative polyadenylation contributes to the developmental divergence between two rice subspecies, japonica and indica

   https://doi.org/10.1111/tpj.14209  

   Zhou, Qian ; Fu, Haihui ; Yang, Dewei ; Ye, Congting ; Zhu, Sheng ; Lin, Juncheng ; Ye, Wenbin ; Ji, Guoli ; Ye, Xinfu ; Wu, Xiaohui ; et al ( February 2019 , The Plant Journal)

   Alternative polyadenylation (APA) is a widespread post‐transcriptional mechanism that regulates gene expression throughmRNAmetabolism, playing a pivotal role in modulating phenotypic traits in rice (Oryza sativaL.). However, little is known about theAPA‐mediated regulation underlying the distinct characteristics between two major rice subspecies,indicaandjaponica. Using a poly(A)‐tag sequencing approach, polyadenylation (poly(A)) site profiles were investigated and compared pairwise from germination to the mature stage betweenindicaandjaponica, and extensive differentiation inAPAprofiles was detected genome‐wide. Genes with subspecies‐specific poly(A) sites were found to contribute to subspecies characteristics, particularly in disease resistance ofindicaand cold‐stress tolerance ofjaponica. In most tissues, differential usage ofAPAsites exhibited an apparent impact on the gene expression profiles between subspecies, and genes with those APA sites were significantly enriched in quantitative trait loci (QTL) related to yield traits, such as spikelet number and 1000‐seed weight. In leaves of the booting stage,APAsite‐switching genes displayed global shortening of 3′ untranslated regions with increased expression inindicacompared withjaponica, and they were overrepresented in the porphyrin and chlorophyll metabolism pathways. This phenomenon may lead to a higher chlorophyll content and photosynthesis inindicathan injaponica, being associated with their differential growth rates and yield potentials. We further constructed an online resource for querying and visualizing the poly(A) atlas in these two rice subspecies. Our results suggest thatAPAmay be largely involved in developmental differentiations between two rice subspecies, especially in leaf characteristics and the stress response, broadening our knowledge of the post‐transcriptional genetic basis underlying the divergence of rice traits.

    

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4. The Role of RNA-Binding Protein OsTudor-SN in Post-Transcriptional Regulation of Seed Storage Proteins and Endosperm Development

   https://doi.org/10.1093/pcp/pcz113  

   Chou, Hong-Li ; Tian, Li ; Fukuda, Masako ; Kumamaru, Toshihiro ; Okita, Thomas W. ( June 2019 , Plant and Cell Physiology)

   Tudor-SN is involved in a myriad of transcriptional and post-transcriptional processes due to its modular structure consisting of 4 tandem SN domains (4SN module) and C-terminal Tsn module consisting of Tudor-partial SN domains. We had previously demonstrated that OsTudor-SN is a key player for transporting storage protein mRNAs to specific ER subdomains in developing rice endosperm. Here, we provide genetic evidence that this multifunctional RBP is required for storage protein expression, seed development and protein body formation. The rice EM1084 line, possessing a nonsynonymous mutation in the 4SN module (SN3 domain), exhibited a strong reduction in grain weight and storage protein accumulation, while a mutation in the Tudor domain (47M) or the loss of the Tsn module (43M) had much smaller effects. Immunoelectron microscopic analysis showed the presence of a new protein body type containing glutelin and prolamine inclusions in EM1084, while 43M and 47M exhibited structurally modified prolamine and glutelin protein bodies. Transcriptome analysis indicates that OsTudor-SN also functions in regulating gene expression of transcriptional factors and genes involved in developmental processes and stress responses as well as for storage proteins. Normal protein body formation, grain weight and expression of many genes were partially restored in EM1084 transgenic line complemented with wild-type OsTudor-SN gene. Overall, our study showed that OsTudor-SN possesses multiple functional properties in rice storage protein expression and seed development and that the 4SN and Tsn modules have unique roles in these processes.

    

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5. Transcriptional response of individual Hawaiian Culex quinquefasciatus mosquitoes to the avian malaria parasite Plasmodium relictum

   https://doi.org/10.1186/s12936-022-04271-x  

   Ferreira, Francisco C. ; Videvall, Elin ; Seidl, Christa M. ; Wagner, Nicole E. ; Kilpatrick, A. Marm ; Fleischer, Robert C. ; Fonseca, Dina M. ( August 2022 , Malaria Journal)

   Plasmodiumparasites that cause bird malaria occur in all continents except Antarctica and are primarily transmitted by mosquitoes in the genusCulex.Culex quinquefasciatus, the mosquito vector of avian malaria in Hawaiʻi, became established in the islands in the 1820s. While the deadly effects of malaria on endemic bird species have been documented for many decades, vector-parasite interactions in avian malaria systems are relatively understudied.

   To evaluate the gene expression response of mosquitoes exposed to aPlasmodiuminfection intensity known to occur naturally in Hawaiʻi, offspring of wild-collected HawaiianCx. quinquefasciatuswere fed on a domestic canary infected with a fresh isolate ofPlasmodium relictumGRW4 from a wild-caught Hawaiian honeycreeper. Control mosquitoes were fed on an uninfected canary. Transcriptomes of five infected and three uninfected individual mosquitoes were sequenced at each of three stages of the parasite life cycle: 24 h post feeding (hpf) during ookinete invasion; 5 days post feeding (dpf) when oocysts are developing; 10 dpf when sporozoites are released and invade the salivary glands.

   Differential gene expression analyses showed that during ookinete invasion (24 hpf), genes related to oxidoreductase activity and galactose catabolism had lower expression levels in infected mosquitoes compared to controls. Oocyst development (5 dpf) was associated with reduced expression of a gene with a predicted innate immune function. At 10 dpf, infected mosquitoes had reduced expression levels of a serine protease inhibitor, and further studies should assess its role as aPlasmodiumagonist inC. quinquefasciatus. Overall, the differential gene expression response of HawaiianCulexexposed to aPlasmodiuminfection intensity known to occur naturally in Hawaiʻi was low, but more pronounced during ookinete invasion.

   This is the first analysis of the transcriptional responses of vectors to malaria parasites in non-mammalian systems. Interestingly, few similarities were found between the response ofCulexinfected with a birdPlasmodiumand those reported inAnophelesinfected with humanPlasmodium. The relatively small transcriptional changes observed in mosquito genes related to immune response and nutrient metabolism support conclusions of low fitness costs often documented in experimental challenges ofCulexwith avianPlasmodium.

    

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