Effects of plant height and row spacing on kenaf forage potential with multiple harvests

Kenaf (Hibiscus cannabinus L.) forage potential can be enhanced through its regrowth capacity and higher production in narrow rows. A field experiment was conducted in Matamoros, Coahuila, Mexico, during 2 growing seasons (2004 and 2005) to study the effects of plant height and row spacing on kenaf forage potential with multiple harvests. This study evaluated the effects of (1) 2 plant heights at cutting (1.0-1.2 m and 1.8-2.0 m) and (2) 4 inter row spacings (0.19, 0.38, 0.57 and 0.76 m) using a 2 x 4 factorial arrangement of treatments in a completely randomized block design with 4 replications. Dry matter (DM) and crude protein (CP) yields, DM partitioning, neutral detergent fiber (NDF) and CP concentrations were determined. Heights at cutting × row spacing interactions were not significant for the monitored variables (p>0.05). Kenaf response to treatments was only relevant for main effects (p≤0.05). Row spacing and plant height affected DM and CP yields (p≤0.05), whereas only plant height affected chemical composition and DM partitioning (p≤0.05). Dry matter (17.0%-26.0%), and CP (12.4%-15.6%) yields were higher (p≤0.05) when plant heights had reached 1.8 to 2.0 m. Row spacing reduction from 0.76 m to 0.38 and 0.19 m increased DM yield (20.4-33.4%) and CP yield (24.2-38.5%) (p≤0.05). Kenaf forage potential increases when planted in narrow rows and harvested 2 or 3 times during the growing season.     

Spectrin ubiquitination and oxidative stress: potential roles in blood and neurological disorders

This review covers the observations that erythrocyte spectrin has a E2 ubiquitin conjugating enzymatic activity that allows it to transfer ubiquitin to a target site in the alpha-spectrin repeats 20/21. The position of this ubiquitination site suggests that ubiquitination may regulate alpha beta spectrin heterodimer nucleation, spectrin-4.1-actin ternary complex formation, and adducin stimulated spectrin-actin attachment in the mature erythrocyte. In sickle cells, which contain altered redox status (high GSSG/GSH ratio), ubiquitin attachment to the E2 and target sites in alpha-spectrin is greatly diminished. We propose that this attenuated ubiquitination of spectrin may be due to glutathiolation of the E2 active site cysteine leading to diminished ubiquitin-spectrin adduct and conjugate formation. Furthermore we propose that lack of ubiquitin-spectrin complex formation leads to dysregulation of the membrane skeleton in mature SS erythrocytes and may diminish spectrin turnover in SS erythropoietic cells via the ubiquitin proteasome machinery. In hippocampal neurons, spectrin is the major ubiquitinated protein and a component of the cytoplasmic ubiquitinated inclusions observed in Alzheimer's and Parkinson's diseases. The two primary neuronal spectrin isoforms: alpha SpI Sigma*/beta SpI Sigma 2 and alpha SpII Sigma 1/beta SpII Sigma 1 are both ubiquitinated. Future work will resolve whether neuronal spectrins also contain E2-ubiquitin conjugating activity and the molecular basis for formation of ubiquitinated inclusions in neurological disorders.     

The excess GTP hydrolyzed during mistranslation is expended at the stage of EF-Tu-promoted binding of non-cognate aminoacyl-tRNA

The system of translation of Sepharose-bound poly(U) in which all ribosomes are active in peptide elongation was used to determine the stoichiometry of GTP hydrolysis at the stage of EF-Tu-promoted aminoacyl-tRNA binding. The ratio of GTP hydrolyzed at this stage per peptide bond was assayed during codon-specific elongation (polyphenylalanine synthesis) and misreading (polyleucine synthesis). It was demonstrated directly that the excess GTP hydrolyzed during misreading [(1984) FEBS Letters 178, 283-287] is expended at the stage of Ef-Tu-promoted binding of non-cognate aminoacyl-tRNA.     

Rapid effects of progesterone on ciliary beat frequency in the mouse fallopian tube

Background  

The physiological regulation of ciliary beat frequency (CBF) within the fallopian tube is important for controlling the transport of gametes and the fertilized ovum. Progesterone influences gamete transport in the fallopian tube of several mammalian species. In fallopian tubes isolated from cows, treatment with 20 micromolar progesterone caused a rapid reduction of the tubal CBF. The aims of this study were to establish methodology for studying fallopian tube CBF in the mouse, as it is an important model species, and to investigate if progesterone rapidly affects the CBF of mice at nM concentrations.     

Stoichiometry of GTP breakdown during peptide synthesis on the ribosome. Stoichiometry of GTP hydrolysis during elongation of polyphenylalanine on polyuridylic acid

The stoichiometry of GTP hydrolysis during poly(Phe) elongation by Phe on poly(U) covalently bound to Sepharose was determined. The concentrations of both EF-T and EF-G were saturating. The GTP/Phe stoichiometry was calculated without the usual correction for the uncoupled ribosomal EF-T and EF-G dependent GTP hydrolysis. At the Mg2+ optimum (6 mM) for the poly(Phe) elongation on poly(U) . Sepharose the stoichiometry ratio of GTP/Phe was 1.9/2.1. This indicates that two (or less) GTP molecules coupled with poly(Phe) elongation by Phe on poly(U) . Sepharose are hydrolyzed.     

The effect of mutations in ribosomal proteins S4, S12 and L7/L12 on EF-Tu-dependent expenditure of GTP in the process of codon-specific elongation and misreading of poly(U)

The effect of mutations in ribosomal proteins S4 (rpsD12), S12 (rpsL282) and L7/L12 (rplL265) of Escherichia coli K12 on the EF-Tu-dependent expenditure of GTP during codon-specific elongation (poly(Phe) synthesis on poly(U] and misreading (poly(Leu) synthesis on poly(U], was studied. Under the conditions used the mutations in proteins S4 and L7/L12 did not practically affect the EF-Tu-dependent expenditure of GTR during the poly(Phe) synthesis on poly(U): the GTP/Phe ratio was about 1, as in the case of the wild strain. Under the same conditions, the ribosomes with a mutant S12 protein tended to discard some amount of Phe-tRNA, as a result of which the GTP/Phe ratio increased to about 3. The marked inhibition of misreading by ribosomes with a mutant S12 protein was accompanied by a significant increase of GTP expenditure at the stage of EF-Tu-dependent non-cognate aminoacyl-tRNA binding. In mutant S 12 proteins the GTP/Leu ratio was about 30-40, whereas in the wild type it was about 12. In contrast, stimulation of misreading by ribosomes with mutant S4 and L7/L12 proteins was accompanied by a decrease of the EF-Tu-dependent expenditure of GTP by 2-3 GTP molecules per one Leu residue included into the peptide.