Abstract
The NRT2 transporters mediate High Affinity Nitrate/NitriteTransport (HAN/NiT), which are essential for nitrogen acquisition from these inorganic forms. The NRT2 proteins are encoded by a multigene family in plants, and contain 12 transmembrane-spanning domains. Chlamydomonas reinhardtii has six NRT2, two of which (NRT2.5 and NRT2.4) are located in Chromosome III, in tandem head to tail. cDNAs for these genes were isolated and their sequence revealed that they correspond to half-size NRT2 transporters each containing six transmembrane domains. NRT2.5 has long N- and C- termini sequences without known homology. NRT2.4 also contains long termini sequences but smaller than NRT2.5. Expression of both studied genes occurred at a very low level, slightly in darkness, and was not modified by the N or C source. Silencing of NRT2.4 by specific artificial miRNA resulted in the inhibition of nitrite transport in the absence of other HANNiT (NRT2.1/NAR2) in the cell genetic background. Nitrite transport activity in the Hansenula polymorpha Δynt::URA3 Leu2 mutant was restored by expressing CrNRT2.4. These results indicate that half-size NRT2 transporters are present in photosynthetic organisms and that NRT2.4 is a HANiT.
Highlights
Nitrate is an essential mineral nutrient for plant growth and development
Two of them (NRT2.4 and NRT2.5) are predicted to encode atypical NRT2 proteins in terms that they are half-size molecules. These genes have been analyzed in the present work and it is shown that NRT2.4 is a high affinity nitrite transporter
Half‐Size Transporters Encoded by NRT2.4 and NRT2.5
Summary
Nitrate is an essential mineral nutrient for plant growth and development. nitrate is reduced to ammonium and used to build biological molecules such as amino acids, proteins or nucleic acids. The high-affinity nitrate transporters NRT2 are present in plants, algae, fungi, yeast, and bacteria [17,18,19,20,21,22,23] This transporters family is named NNP (Nitrate Nitrite Porter) (TC 2.A.1.8) and belongs to the Major Facilitator Superfamily (MFS) (TC 2.A.1) [24,25]. Two of them (NRT2.4 and NRT2.5) are predicted to encode atypical NRT2 proteins in terms that they are half-size molecules These genes have been analyzed in the present work and it is shown that NRT2.4 is a high affinity nitrite transporter
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