| scholarly article | Q13442814 |
| P50 | author | Emilio Fernández Reyes | Q42809661 |
| David Gonzalez-Ballester | Q46713892 | ||
| Antonio Camargo | Q47842361 | ||
| P2093 | author name string | Paul A Lefebvre | |
| Aurora Galván | |||
| Angel Llamas | |||
| José J Higuera | |||
| Rogene A Schnell | |||
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| Nitrate and the GATA factor AreA are necessary for in vivo binding of NirA, the pathway-specific transcriptional activator of Aspergillus nidulans. | Q53874893 | ||
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| Five nitrate assimilation-related loci are clustered in Chlamydomonas reinhardtii | Q70512862 | ||
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| Isolation and characterization of HvNRT2.3 and HvNRT2.4, cDNAs encoding high-affinity nitrate transporters from roots of barley | Q73537170 | ||
| Molybdenum cofactor biosynthesis. The plant protein Cnx1 binds molybdopterin with high affinity | Q73813596 | ||
| Nitrate signalling on the nitrate reductase gene promoter depends directly on the activity of the nitrate transport systems in Chlamydomonas | Q74053086 | ||
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| Nitrate Acts as a Signal to Induce Organic Acid Metabolism and Repress Starch Metabolism in Tobacco | Q74801358 | ||
| Two short regions of the promoter are essential for activation and repression of the nitrate reductase gene in Chlamydomonas reinhardtii | Q74813418 | ||
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| P433 | issue | 11 | |
| P304 | page(s) | 3491-3503 | |
| P577 | publication date | 2007-11-16 | |
| P1433 | published in | The Plant Cell | Q3988745 |
| P1476 | title | Nitrate signaling by the regulatory gene NIT2 in Chlamydomonas. | |
| P478 | volume | 19 |
| Q38543071 | A new insight into root responses to external cues: Paradigm shift in nutrient sensing |
| Q35049221 | A sensing role of the glutamine synthetase in the nitrogen regulation network in Fusarium fujikuroi |
| Q43074194 | A soluble guanylate cyclase mediates negative signaling by ammonium on expression of nitrate reductase in Chlamydomonas. |
| Q33419831 | A systems approach uncovers restrictions for signal interactions regulating genome-wide responses to nutritional cues in Arabidopsis |
| Q48197976 | An Evolutionarily Conserved DOF-CONSTANS Module Controls Plant Photoperiodic Signaling. |
| Q84179550 | An inducible artificial microRNA system for Chlamydomonas reinhardtii confirms a key role for heat shock factor 1 in regulating thermotolerance |
| Q55405377 | Arginine is a component of the ammonium-CYG56 signalling cascade that represses genes of the nitrogen assimilation pathway in Chlamydomonas reinhardtii. |
| Q33714066 | Changes in transcript abundance in Chlamydomonas reinhardtii following nitrogen deprivation predict diversion of metabolism |
| Q33939365 | Characterization of THB1, a Chlamydomonas reinhardtii truncated hemoglobin: linkage to nitrogen metabolism and identification of lysine as the distal heme ligand |
| Q41475960 | Characterization of the truncated hemoglobin THB1 from protein extracts of Chlamydomonas reinhardtii |
| Q41040028 | Characterization of unusual truncated hemoglobins of Chlamydomonas reinhardtii suggests specialized functions. |
| Q35954452 | ChlamyNET: a Chlamydomonas gene co-expression network reveals global properties of the transcriptome and the early setup of key co-expression patterns in the green lineage. |
| Q41855508 | Combined intracellular nitrate and NIT2 effects on storage carbohydrate metabolism in Chlamydomonas. |
| Q42369110 | Dancing with Hormones: A Current Perspective of Nitrate Signaling and Regulation in Arabidopsis |
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| Q96303571 | Genome wide analysis of NLP transcription factors reveals their role in nitrogen stress tolerance of rice |
| Q41718317 | Genomic structure and evolution of the mating type locus in the green seaweed Ulva partita |
| Q38566969 | Green transcription factors: a chlamydomonas overview. |
| Q39136928 | How Chlamydomonas handles nitrate and the nitric oxide cycle. |
| Q43073405 | Identification of a nitrate-responsive cis-element in the Arabidopsis NIR1 promoter defines the presence of multiple cis-regulatory elements for nitrogen response |
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| Q51065220 | Nuclear retention of the transcription factor NLP7 orchestrates the early response to nitrate in plants. |
| Q36996236 | Overexpression of Arabidopsis NLP7 improves plant growth under both nitrogen-limiting and -sufficient conditions by enhancing nitrogen and carbon assimilation |
| Q33700502 | Parallel evolution of nitric oxide signaling: diversity of synthesis and memory pathways. |
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| Q34164640 | Phylogenomic analysis of the Chlamydomonas genome unmasks proteins potentially involved in photosynthetic function and regulation |
| Q39804093 | Regulation by Light of Chemotaxis to Nitrite during the Sexual Life Cycle in Chlamydomonas reinhardtii |
| Q38465801 | Relevance of nutrient media composition for hydrogen production in Chlamydomonas. |
| Q64058420 | Role of Nitrate Reductase in NO Production in Photosynthetic Eukaryotes |
| Q35443373 | Synthetic promoters consisting of defined cis-acting elements link multiple signaling pathways to probenazole-inducible system. |
| Q41705268 | THB1, a truncated hemoglobin, modulates nitric oxide levels and nitrate reductase activity. |
| Q46024315 | The Arabidopsis CPSF30-L gene plays an essential role in nitrate signaling and regulates the nitrate transceptor gene NRT1.1. |
| Q39738837 | The Transcription Factor NIN-LIKE PROTEIN7 Controls Border-Like Cell Release. |
| Q98196738 | The diversification and lineage-specific expansion of nitric oxide signaling in Placozoa: insights in the evolution of gaseous transmission |
| Q38225515 | The plant RWP-RK transcription factors: key regulators of nitrogen responses and of gametophyte development |
| Q41824397 | Transcriptome analysis of nitrate assimilation in Aspergillus nidulans reveals connections to nitric oxide metabolism |
| Q28083852 | Understanding nitrate assimilation and its regulation in microalgae |
| Q37701386 | Uniparental inheritance of cpDNA and the genetic control of sexual differentiation in Chlamydomonas reinhardtii. |
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