Mapping the Functional Roles of Cap Cells in the Response of Arabidopsis Primary Roots to Gravity

The cap is widely accepted to be the site of gravity sensing in roots because removal of the cap abolishes root curvature. Circumstantial evidence favors the columella cells as the gravisensory cells because amyloplasts (and often other cellular components) are polarized with respect to the gravity vector. However, there has been no functional confirmation of their role. To address this problem, we used laser ablation to remove defined cells in the cap of Arabidopsis primary roots and quantified the response of the roots to gravity using three parameters: time course of curvature, presentation time, and deviation from vertical growth. Ablation of the peripheral cap cells and tip cells did not alter root curvature. Ablation of the innermost columella cells caused the strongest inhibitory effect on root curvature without affecting growth rates. Many of these roots deviated significantly from vertical growth and had a presentation time 6-fold longer than the controls. Among the two inner columella stories, the central cells of story 2 contributed the most to root gravitropism. These cells also exhibited the largest amyloplast sedimentation velocities. Therefore, these results are consistent with the starch-statolith sedimentation hypothesis for gravity sensing.     

Accelerated Evolution of Cytochrome b in Simian Primates: Adaptive Evolution in Concert with Other Mitochondrial Proteins?

We have sequenced the cytochrome b gene of Horsfield's tarsier, Tarsius bancanus, to complete a data set of sequences for this gene from representatives of each primate infraorder. These primate cytochrome b sequences were combined with those from representatives of three other mammalian orders (cat, whale, and rat) in an analysis of relative evolutionary rates. The nonsynonymous nucleotide substitution rate of the cytochrome b gene has increased approximately twofold along lineages leading to simian primates compared to that of the tarsier and other primate and nonprimate mammalian species. However, the rate of transversional substitutions at fourfold degenerate sites has remained uniform among all lineages. This increase in the evolutionary rate of cytochrome b is similar in character and magnitude to that described previously for the cytochrome c oxidase subunit II gene. We propose that the evolutionary rate increase observed for cytochrome b and cytochrome c oxidase subunit II may underlie an episode of coadaptive evolution of these two proteins in the mitochondria of simian primates. Received: 15 December 1997 / Accepted: 24 February 1998     

Effect of aluminum on cytoplasmic Ca2+ homeostasis in root hairs of Arabidopsis thaliana (L.)

Aluminum inhibition of root growth is a major world agricultural problem where the cause of toxicity has been linked to changes in cellular calcium homeostasis. Therefore, the effect of aluminum ions (Al) on changes in cytoplasmic free calcium concentration ([Ca²⁺]_c) was followed in root hairs of wild-type, Al-sensitive and Al-resistant mutants of Arabidopsis thaliana (L.) Heynh. Generally, Al exposure resulted in prolonged elevations in tip-localized [Ca²⁺]_c in both wild-type and Al-sensitive root hairs. However, these Al-induced increases in [Ca²⁺]_c were not tightly correlated with growth inhibition, occurring up to 15 min after Al had induced growth to stop. Also, in 32% of root hairs examined growth stopped without a detectable change in [Ca²⁺]_c. In contrast, Al-resistant mutants showed little growth inhibition in response to AlCl₃ exposure and in no case was a change in [Ca²⁺]_c observed. Of the other externally applied stresses tested (oxidative and mechanical stress), both were found to inhibit root hair growth, but only oxidative stress (H₂O₂, 10 μM) caused a prolonged rise in [Ca²⁺]_c similar to that induced by Al. Again this increase occurred after growth had been inhibited. The lack of a tight correlation between Al exposure, growth inhibition and altered [Ca²⁺]_c dynamics suggests that although exposure of root hairs to toxic levels of Al causes an alteration in cellular Ca²⁺ homeostasis, this may not be a required event for Al toxicity. The elevation in [Ca²⁺]_c induced by Al also strongly suggests that the phytotoxic action of Al in root hairs is not through blockage of Ca²⁺-permeable channels required for Ca²⁺ influx into the cytoplasm. Received: 24 October 1997 / Accepted: 6 March 1998     

Identifying novel regulators of shoot meristem development

New organs are initiated throughout the life span of higher plants. This process occurs at the shoot meristem, which is initiated during embryogenesis and is later responsible for generating the above-ground portion of the plant. The shoot meristem can be thought of as having two zones, a central zone containing meristematic cells in an undifferentiated state, and a surrounding peripheral zone where cells enter a specific developmental pathway toward a differentiated state. Recent advances have revealed several genes that specifically regulate meristem development inArabidopsis. However, extensive mutagenesis by several labs have identified only a handful, of loci that appear to specifically regulate shoot meristem development. We have undertaken an enhancer/suppressor mutagenesis of an existing meristem mutant (clv1) and have identified novel regulators of meristem development. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

The structure of carbonyl horseradish peroxidase: spectroscopic and kinetic characterization of the carbon monoxide complexes of His-42 → Leu and Arg-38 → Leu mutants

Horseradish peroxidase isoenzyme C (HRPC) mutants were constructed in order to understand the involvement of two key distal heme cavity residues, histidine 42 and arginine 38, in the formation and structure of the carbon monoxide complex of HRPC (carbonyl HRPC). The rates of CO binding to the wild-type glycosylated and non-glycosylated recombinant (HRPC*) ferrous enzymes were essentially identical and exhibited the same pH dependence with pK _as at 7.4 and 4.0. Data obtained with the His-42?→?Leu [(H42L)HRPC*)] and Arg-38?→?Leu [(R38L)HRPC*] mutants allowed the pK _a at 7.4 in ferrous HRPC to be assigned to His-42. The infra-red and electronic absorption spectra of HRPC-CO, HRPC*-CO, (R38L)HRPC*-CO and (H42L)HRPC*-CO have been investigated over the pH range 3.0–10.0. HRPC*-CO exhibited two ν?(CO) bands at 1934?cm^–1 and 1905?cm^–1 whose relative intensity changed with pH, showing an acidic and a basic pK _a as previously reported for HRPC [IE Holzbaur; AM English, AA Ismail (1996) J Am Chem Soc 118?:?3354–3359]. (H42L)HRPC*-CO and (R38L)HRPC*-CO exhibited single infra-red bands at 1924.2?cm^–1 (pH?7.0) and 1941.5?cm^–1 (pH?5.0) respectively. Acidic and alkaline pK _as were determined from shifts in the infra-red frequencies and by UV-visible spectrophotometry at the Söret maxima. (H42L)HRPC*-CO exhibited a pK _a at ～pH?4.0 but no alkaline pK _a. (R38L)HRPC*-CO exhibited a single pK _a at pH?6.5. Shifts of 2–3?cm^–1 in ν?(CO) with (H42L)HRPC*-CO in D₂O show that a distal residue is H-bonding to the CO in this variant at both pD?7.5 and 3.9. However, with (R38L)HRPC*-CO, only a small shift of the ν?(CO) band was observed at pD?5.5. The results are consistent with the involvement of Arg-38 in H-bonding to the CO ligand in HRPC and with His-42 modulating the distribution of carbonyl HRPC conformers below pH?8.7. These data are discussed in terms of the importance of distal pocket polarity in HRPC. It is concluded that His-42 can have a pK _a between 4.0 and 8.7 depending on its environment and the nature of the distal ligand at position 38. This enables His-42 to carry out multiple functions during the catalytic cycle of HRPC.     

The influence of alcohol-containing and alcohol-free beverages on lipid levels and lipid peroxides in serum of rats

It is an established fact that moderate consumption of alcoholic beverages leads to some positive biochemical changes in blood that are widely regarded as indicators of improved prevention of atherosclerosis. However, at present, there are different opinions regarding the biologically active compounds of alcoholic beverages that bring about these changes. This experiment was conducted on 60 male Wistar rats, which were divided into five groups, each of which contained 12 rats: four experimental groups (EG1, EG2, EG3, EG4) and one control group (CG). During 4 weeks, all groups of rats were fed basal diet (BD) supplemented with dry red wine (EG1), beer (EG2), lyophilized dry red wine (EG3), or lyophilized beer (EG4). The rats of the CG were fed BD only. The rats of EG1 and EG2 were fed BD supplemented daily with 2.0 mL of wine and 6.0 mL of beer, respectively. The rats of EG3 and EG4 were fed BD supplemented daily with lyophilized wine and lyophilized beer at a concentration corresponding to an intake of 2.0 mL of original wine and 6.0 mL of original beer, respectively. Before and after completion of the trial, a wide range of laboratory tests including lipids and lipid peroxides were performed. The results of this investigation reveal that both original and lyophilized wine and beer exercise statistically significant beneficial lipidemic and antioxidant effects by reducing total cholesterol (TC), low density lipoprotein cholesterol, triglycerides, and lipid peroxides (P < 0.05 for all) and by elevating the high density lipoprotein cholesterol:TC ratio. There were no statistically significant differences in the results between groups fed BD supplemented with original wine and beer versus groups fed BD supplemented with lyophilized wine and beer. Therefore, it can be concluded that the biologically active compound of these beverages is their dry matter containing inter alia polyphenols in relatively high concentrations.     

Interactions between plant and insect diversity in the restoration of lowland calcareous grasslands in southern Britain

Abstract. The lowland calcareous grasslands of northwestern Europe are highly prized by ecologists and conservationists as a result of the diversity of their plant and invertebrate communities. Large areas of such grasslands have been lost this century as a result of changes in agricultural land use. Recent changes in agricultural policies, in particular the introduction of agri-environmental incentive schemes, have resulted in an increasing area being managed for the restoration of these communities. This paper reviews the management techniques employed in the restoration of lowland calcareous grasslands and the factors that govern their success. Constraints on the enhancement of the plant diversity of restoration sites include high soil fertility and the presence of undesirable species in the soil seed bank. However, it is thought that the primary constraint is the availability of propagules from which new populations can be established. Similarly, the dispersal mode and ability of insect species is likely to be the major factor limiting the enhancement of insect diversity. Evaluation of the success of restoration management usually involves monitoring changes in the plant community. However, as a result of their short life-cycles and sensitivity to small-scale environmental conditions, insects may respond more rapidly to changes resulting from restoration management and therefore provide better indicators of success. With the exception of a few high-profile butterfly species, the use of insects as indicator taxa has largely been neglected in terrestrial systems. This paper illustrates their potential use with reference to lowland calcareous grasslands in southern Britain.