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1.
Genet Mol Res ; 14(2): 7196-207, 2015 Jun 29.
Article in English | MEDLINE | ID: mdl-26125930

ABSTRACT

Drought is one of the most frequent abiotic stresses limiting the productivity and geographical distribution of sugarcane culture. The use of drought-tolerant genotypes is one approach for overcoming the effects of water stress. We conducted a comparative study to identify gene expression profiles under water stress in tolerant sugarcane roots. Two different cultivars, 1 drought tolerant (RB867515) and 1 drought susceptible (SP86-155), were evaluated at 4 sampling time points (1, 3, 5, and 10 days) using the cDNA-amplified fragment length polymorphism technique. A total of 173 fragments were found to be differentially expressed in response to water stress in the tolerant cultivar. Seventy of these were cloned, sequenced, and categorized. Similarity analysis using BLAST revealed that 64% of the fragments differentially expressed code proteins classified as no hits (23%), hypothetical (21%), or involved in stress response (20%), with others were involved in communication pathways and signal transduction, bioenergetics, secondary metabolism, and growth and development. Four genes were analyzed and validated using real-time quantitative polymerase chain reaction to determine their expression and showed consistency with the cDNA-amplified fragment length polymorphism analyses. Our results contribute insight into the molecular responses to water stress in sugarcane and possibility to the development of cultivars with improved tolerance to drought.


Subject(s)
Dehydration/genetics , Gene Expression Regulation, Plant , Plant Proteins/genetics , Plant Roots/genetics , Saccharum/genetics , Stress, Physiological/genetics , Adaptation, Physiological/genetics , Amplified Fragment Length Polymorphism Analysis , Droughts , Gene Expression Profiling , Genotype , Molecular Sequence Annotation , Plant Roots/growth & development , Saccharum/growth & development , Signal Transduction
2.
Genet. mol. res. (Online) ; 2(4): 376-382, Dec. 2003.
Article in English | LILACS | ID: lil-417592

ABSTRACT

Pyrophosphate-dependent phosphofructokinase (PPi-PFK) has been detected in several types of plant cells, but the gene has not been reported in sugar cane. Using Citrus paradisi PPi-PFK gene (AF095520 and AF095521) sequences to search the sugar cane EST database, we have identified both the alpha and beta subunits of this enzyme. The deduced amino acid sequences showed 76 and 80 similarity with the corresponding alpha and beta subunits of C. paradisi. A high degree of similarity was also observed among the PFK b subunits when the alignment of the sugar cane sequences was compared to those of Ricinus communis and Solanum tuberosum. It appears that alpha and beta are two distinct subunits; they were found at different concentrations in several sugar cane tissues. It remains to be determined if the different gene expression levels have some physiological importance and how they affect sucrose synthesis, export, and storage in vacuoles. A comparison between the amino acid sequences of b PFKs from a variety of organisms allowed us to identify the two critical Asp residues typical of this enzyme's activity site and the other binding sites; these residues are tightly conserved in all members of this protein family. Apparently, there are catalytic residues on the b subunit of the pyrophosphate-dependent enzyme


Subject(s)
Phosphotransferases/genetics , Pyrophosphatases/metabolism , Saccharum/enzymology , Amino Acid Sequence , DNA, Complementary/analysis , Phosphotransferases/metabolism , Molecular Sequence Data , Saccharum/genetics
3.
Genet Mol Res ; 2(4): 376-82, 2003 Dec 30.
Article in English | MEDLINE | ID: mdl-15011141

ABSTRACT

Pyrophosphate-dependent phosphofructokinase (PPi-PFK) has been detected in several types of plant cells, but the gene has not been reported in sugar cane. Using Citrus paradisi PPi-PFK gene (AF095520 and AF095521) sequences to search the sugar cane EST database, we have identified both the alpha and beta subunits of this enzyme. The deduced amino acid sequences showed 76 and 80% similarity with the corresponding alpha and beta subunits of C. paradisi. A high degree of similarity was also observed among the PFK b subunits when the alignment of the sugar cane sequences was compared to those of Ricinus communis and Solanum tuberosum. It appears that alpha and beta are two distinct subunits; they were found at different concentrations in several sugar cane tissues. It remains to be determined if the different gene expression levels have some physiological importance and how they affect sucrose synthesis, export, and storage in vacuoles. A comparison between the amino acid sequences of b PFKs from a variety of organisms allowed us to identify the two critical Asp residues typical of this enzyme's activity site and the other binding sites; these residues are tightly conserved in all members of this protein family. Apparently, there are catalytic residues on the b subunit of the pyrophosphate-dependent enzyme.


Subject(s)
Phosphotransferases/genetics , Pyrophosphatases/metabolism , Saccharum/enzymology , Amino Acid Sequence , DNA, Complementary/analysis , Molecular Sequence Data , Phosphotransferases/metabolism , Saccharum/genetics
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