Research Article

[Retracted] Leaf Rolling and Stem Fasciation in Grass Pea (Lathyrus sativus L.) Mutant Are Mediated through Glutathione-Dependent Cellular and Metabolic Changes and Associated with a Metabolic Diversion through Cysteine during Phenotypic Reversal

Table 2

Phenotypic characteristics, cytological peculiarities, and biochemical features in rlfL-1 mutant and its mother variety Biol-212 under untreated and BSO-treated conditions. MC-untreated (no BSO) mother control, MuC-untreated (no BSO), MuT-BSO-treated mutant, and TM-BSO treated mother plant.

TraitsMCMuCMuTTM

Shoot dry weight (g plant−1)
Root dry weight (g plant−1)
Pod length (cm)
100 seed weight (g)
Seeds pod−1
Pollen sterility (%)
MI%
PI%
MtI%
AI%
TI%
Cysteine content (nmoL g−1 FW) leaf
Cysteine content (nmoL g−1 FW) stems
GSH (nmoL g−1 FW) leaf
GSSG (nmoL g−1 FW) leaf
GSH redox-leaf (GSH/(GSH + GSSG))
GSH (nmoL g−1 FW) stems
GSSG (nmoL g−1 FW) stems
GSH redox-stems (GSH/(GSH + GSSG))

Data are means ± SE of at least four replicates. Means followed by same alphabets are not significantly ( > 0.05) different at ANOVA followed by Duncan’s multiple range test. MI: mitotic index, PI: prophase index, MtI: metaphase index, AI: anaphase index, TI: telophase index, GSH: reduced glutathione, and GSSG: glutathione disulfide.