The complete mitochondrial genome of the carnivorous flowering plant Nepenthes X Ventrata.

Carnivorous plants have the ability to capture and digest small animals as a source of additional nutrients, which allows them to grow in nutrient-poor habitats. This study reports the complete mitochondrial genome sequence of a pitcher plant Nepenthes x ventrata. It was 520,764 bp in size with a GC content of 44.17% and contained 37 protein-coding genes, 2 pseudogenes, 18 tRNA genes and 3 rRNA genes. Four tRNA genes and the rps11 gene were probably transferred to mitochondrion form the chloroplast genome. Phylogenetic analysis confirmed that N. x ventrata belongs to the order Caryophyllales.

The complete chloroplast genome of parasitic flowering plant Monotropa hypopitys: extensive gene losses and size reduction.

Plastid genomes of parasitic plants represent apt systems, in which the effects of relaxed selective pressure on photosynthetic function are studied. The complete chloroplast genome sequence of nonphotosynthetic mycoheterotrophic plant Monotropa hypopitys was determined. With only 19 protein-coding, four rRNA and 17 tRNA genes in 34 800 bp long genome, it is one of the most reduced plastid genomes characterized until now. Monotropa chloroplast genome lacks all genes encoding photosynthetic functions and RNA polymerase subunits but retains most of the ribosomal protein genes and housekeeping genes infA and matK. Monotropa represents the late stages of chloroplast genome decay following the transition to heterotrophy.