Tomato plants exhibiting fruit with increased BRIX content are provided, together with methods of producing, identifying, or selecting plants or germplasm with an increased BRIX phenotype and lacking undesirable leaf necrosis. Such plants include tomato plants comprising introgressed genomic regions conferring increased BRIX without necrosis. Compositions, including novel polymorphic markers for detecting plants comprising introgressed alleles providing increased BRIX without necrosis, are further provided.

Isolated polynucleotides are provided. Each of the isolated polynucleotides comprise a nucleic acid sequence encoding a polypeptide having an amino acid sequence at least 80% homologous to SEQ ID NOs:130-258 and 536-791, wherein the polypeptide is capable of regulating cotton fiber development. Also provided are methods of using such polynucleotides for improving fiber quality and/or yield of a fiber producing plant, as well as methods of using such polynucleotides for producing plants having increased biomass/vigor/yield.

The present disclosure provides the identification of promoters that are preferentially active in tobacco axillary buds. Also provided are tobacco plants comprising reduced or no sucker growth. Also provided are methods and compositions for producing tobacco plants comprising reduced or no sucker growth.

The present disclosure provides the identification of promoters that are preferentially active in tobacco axillary buds. Also provided are tobacco plants comprising reduced or no sucker growth. Also provided are methods and compositions for producing tobacco plants comprising reduced or no sucker growth.

The present application discloses a recombinant fiber-selective promoter region comprising a DNA molecule comprising a fiber specificity region of a cotton lipid transfer protein gene promoter, operably linked to a DNA molecule comprising a nucleotide sequence having at least 90% sequence identity to a nucleotide sequence of about 500 consecutive nucleotides of the 3 end of the FB8-like 2 promoter and use thereof to increase fiber-selective expression of products of interest in cotton fiber cells.

The present disclosure provides genetic constructs containing a promoter that is useful in driving fruit-specific expression in plants. Further provided are expression vectors, transgenic plants and plant parts containing such genetic constructs, as well as uses thereof.

Tomato plants exhibiting fruit with increased BRIX content are provided, together with methods of producing, identifying, or selecting plants or germplasm with an increased BRIX phenotype and lacking undesirable leaf necrosis. Such plants include tomato plants comprising introgressed genomic regions conferring increased BRIX without necrosis. Compositions, including novel polymorphic markers for detecting plants comprising introgressed alleles providing increased BRIX without necrosis, are further provided.

Provided are isolated polypeptides comprising the amino acid sequence at least 80% homologous to SEQ ID NO:68, 51-66, 69-100, 379-656, 707-715, 720-723, 742-754, 764-771 or 772 with the proviso that the amino acid sequence is not as set forth by SEQ ID NO: 765 or 771, isolated polynucleotides comprising the nucleic acid sequence at least 80% identical to SEQ ID NOs:18, 1-16, 19-50, 101-378, 657-672, 674-706, 716-719, 724-741 and 755-763 with the proviso that the nucleic acid sequence is not as set forth by SEQ ID NO:756 or 762, and isolated polynucleotides selected from the group consisting of SEQ ID NOs:779-792 and methods of using same for increasing oil content, yield, growth rate, biomass, vigor, abiotic stress tolerance and/or nitrogen use efficiency of a plant.

Expression vectors and expression cassettes containing a tissue specific 5 transcription regulatory element, optionally linked to a translation regulatory element, optionally linked to an intron transcription regulatory element, operably linked to a heterologous polynucleotide encoding a protein or RNA of interest are described. The 5 transcription regulatory elements control expression in root tissue cells, phloem tissue cells, or fruit and/or abscission zone tissue cells. These sequences are obtained from citrus plants. Methods of use of these expression vectors and expression cassettes are described, as well as genetically altered plants and parts thereof that contain these expression vectors and/or cassettes.

Expression vectors and expression cassettes containing a tissue specific 5 transcription regulatory element, optionally linked to a translation regulatory element, optionally linked to an intron transcription regulatory element, operably linked to a heterologous polynucleotide encoding a protein or RNA of interest are described. The 5 transcription regulatory elements control expression in root tissue cells, phloem tissue cells, or fruit and/or abscission zone tissue cells. These sequences are obtained from citrus plants. Methods of use of these expression vectors and expression cassettes are described, as well as genetically altered plants and parts thereof that contain these expression vectors and/or cassettes.