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  • Temporal and spatial transcriptomic and microRNA dynamics of CAM photosynthesis in pineapple.

Temporal and spatial transcriptomic and microRNA dynamics of CAM photosynthesis in pineapple.

The Plant journal : for cell and molecular biology (2017-07-04)
Ching M Wai, Robert VanBuren, Jisen Zhang, Lixian Huang, Wenjing Miao, Patrick P Edger, Won C Yim, Henry D Priest, Blake C Meyers, Todd Mockler, J Andrew C Smith, John C Cushman, Ray Ming
ABSTRACT

The altered carbon assimilation pathway of crassulacean acid metabolism (CAM) photosynthesis results in an up to 80% higher water-use efficiency than C3 photosynthesis in plants making it a potentially useful pathway for engineering crop plants with improved drought tolerance. Here we surveyed detailed temporal (diel time course) and spatial (across a leaf gradient) gene and microRNA (miRNA) expression patterns in the obligate CAM plant pineapple [Ananas comosus (L.) Merr.]. The high-resolution transcriptome atlas allowed us to distinguish between CAM-related and non-CAM gene copies. A differential gene co-expression network across green and white leaf diel datasets identified genes with circadian oscillation, CAM-related functions, and source-sink relations. Gene co-expression clusters containing CAM pathway genes are enriched with clock-associated cis-elements, suggesting circadian regulation of CAM. About 20% of pineapple microRNAs have diel expression patterns, with several that target key CAM-related genes. Expression and physiology data provide a model for CAM-specific carbohydrate flux and long-distance hexose transport. Together these resources provide a list of candidate genes for targeted engineering of CAM into C3 photosynthesis crop species.

MATERIALS
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Product Description

Supelco
Fructose Assay Kit, sufficient for 20 assays
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Sucrose Assay Kit, sufficient for 20 assays
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Starch (HK) Assay Kit, sufficient for 20 assays