Identification of Indian Landraces of Opium Poppy Papaver somniferum Resistant to Damping-off and Downy Mildew Fungal Diseases

A set of 32 landraces (traditional local cultivars) of poppy Papaver somniferum originating in the Indian states of Rajasthan, Madhya Pradesh, Uttar Pradesh and Tamilnadu, and four Indian commercial varieties were screened over four cropping seasons for their reaction to downy mildew disease caused by Peronospora arborescens and damping-off disease caused by Pythium dissotocum under both field and artificial inoculation conditions. The landrace 1018 was found to be resistant to damping-off disease and the landraces 1014 and N3 were resistant to downy mildew disease. A yield trial conducted over two seasons showed that the damping-off disease-resistant landrace 1018 was superior to all the commercial varieties in seed, morphine and/or codeine yield. The experiments provided further evidence that there is considerable genetic variability between the landraces.     

Translocation of N to and from barley roots: its dependence on local nitrate supply in split-root culture

The relationship between availability of external nitrate and N translocation between root and shoot was studied in N-limited barley ( Hordeum vulgare L. cv. Golf). Nitrate-N was added at a relative rate (i.e. N added per unit time and unit N in plant biomass) of (1.09 da-¹, and distributed between the subroots at ratios of 50:50 or 80:20. The plants were grown for 13 days under these conditions of nitrate nutrition, and for another three days with the nitrate distribution reversed from 80:20 to 20:80. The nitrale-N doses thus experienced by individual subroots ranged from 2 to 11 mg N g-¹ root dry weight day-¹ . ¹⁵N-Nitrate labellings were performed after 2 to 3 and 12 to 13 days of nitrate nutrition. and 2 to 3 days after reversal of nitrate additions. For all treatments, between 60 and 82% of the absorbed label initially left the root, and between 25 and 55% of the label recovered in roots had been supplied (cycled) via the shoot. Labelling of xylem N at the end of the 24-h labelling period ranged from to 36 to 46% indicating that a substantial fraction of the N in the xylem had been absorbed by the plant prior to labelling. It is concluded that cycling of N to roots, and cycling of N in the plant as a whole, is substantial also during N-limited growth. N allocation to roots increased with external nitrate dose. An increased utilization of non-translocated N as well as an increased translocation of N from the shoot contributed to this effect. Thus, the results indicate that increased external availability of N also increased the sink strength of the root for cycling N.     

Comparative RFLP mapping of Hordeum vulgare and Triticum tauschii

Hordeum vulgare (barley) and Triticum tauschii are related, but sexually incompatible, species. This study was conducted to determine the extent of homology between the genomes of barley and T. tauschii using a common set of restriction fragment length polymorphism (RFLP) markers. Results showed that >95% of low-copy sequences are shared, but 42% of the conserved sequences showed copy-number differences. Sixty-three loci were mapped in T. tauschii using RFLP markers previously mapped in barley. A comparison of RFLP marker order showed that, in general, barley and T. tauschii have conserved linkage groups, with markers in the same linear orders. However, six of the seven linkage groups of T. tauschii contained markers which mapped to unrelated (i.e., non-homoeologous) barley chromosomes. Additionally, four of the T. tauschii linkage groups contained markers that were switched in order with respect to barley. All the chromosome segments differing between T. tauschii and barley contained markers that were detected by multi-copy probes. The results suggest that the observed differences between the T. tauschii and barley genomes were brought about by duplications or deletions of segments in one or both species. The implications of these findings for genetic mapping, breeding, and plant genome evolution are discussed.Published with the approval of the Director of the Colorado State University/Agricultural Experiment Station     

Geographical trends within a diverse spring barley collection as identified by agro/morphological and electrophoretic data

For ex-situ germplasm conservation purposes, the concept of genetic diversity being concentrated in certain geographic regions is useful for the conscious selection of diverse forms. Numerous studies of barley and other major corp species often confirm the concentration of simply-inherited, phenotypicallyobvious markers within the Vavilovian centres of diversity/origin. However, more recent studies of electrophoretic patterns and or more complexly-inherited traits do not always confirm the same geographic patterns. Unfortunately, few studies of world germplasm collections have screened a range of agro/morphological/electrophoretic patterns using the same germplasm collection as a consistent base for evaluation purposes, making precise genetic estimates of diverse geographic areas difficult. A diverse collection of 1 118 spring-sown barley cultivars was, therefore, evaluated for both agro/morphological and biochemical genetic markers in an effort to identify appropriate criteria for the construction of a comprehensive ex-situ germplasm collection. On the basis of both agro/morphological and biochemical data, countries whose cultivated barley germplasm was identified as diverse and genetically distinct were Algeria, Afghanistan, Argentina, Ethiopia, India, Peru and Turkey. However, within broad limits, separate cluster analyses of the agro-morphological and electrophoretic patterns identified dissimilar groups of countries, which demonstrated that a collection strategy based solely on country of origin is inappropriate.     

Inhibitors of chymotrypsin and microbial serine proteases in barley grains

Barley grains contain two imrnunochemically distinct inhibitors of chymotrypsin and microbial serine proteases. Both inhibitors are rich in lysine (9.5 and 11.5 g Lys/g protein). Hiproly high-lysine barley contains twenty-fold higher, high-lysine mutant 1508 five-fold higher amounts of these inhibitors than normally cultivated varieties. Inhibitors were extracted from Hiproly barley, and ammonium sulfate fractionation followed by gel filtration resulted in a neariy complete separation of the two inhibitors. No inactive protein impurities could be detected in a number of isoinhibitor preparations obtained in subsequent cation exchange chrotnatography steps. One inhibitor (CI-1) was composed of at leas# 4 molecular forms with isoelecfric points in the range 4.75–5.55 and a monomer molecular size of about 9 000. Most of this inhibitor was apparently present as dimer forms in grain extracts. The other inhibitor (CI-2) included at least 7 different molecular forms with isoelectric points in the range 6.05–7.90 and different molecular sizes in the range 6 500–9 000. Both dimer and monomer forms were present in grain extracts. In contrast to previously purified protease inhibitors of plant origin, the two barley inhibitors contain no cysteine. No interactions between the two inhibitors and trypsin were observed, but the inhibitors were immediately inactivated by pepsin at pH 2.0. Monospecific antibodies towards the two inhibitors were obtained after immunization with glutaraldehyde-polymerized inhibitor.
Inhibitor CI-1 is identical with an inhibitor of microbial alkaline proteases previously purified (Mikola and Suolinna 1971. Arch. Biochem. Biophys. 144: 566–575).     

RAPD variation in wild populations of four species of the genus Hordeum (Poaceae)

 The genetic variation of 102 natural populations of wild barley growing in Spain was assessed using RAPDs (random amplified polymorphic DNA). The plant material included the annual species H. marinum subsp. marinum (22 populations) and subsp. gussoneanum (14), H. murinum subsp. murinum (7) and subsp. leporinum (35), and the perennial species H. bulbosum (17) and H. secalinum (7). Ten of the tested 64 arbitrary 10-mer primers amplified polymorphic DNA in all taxonomic units. Analyses was performed within and between populations, species and subspecies. The primers gave a total of 250 RAPD products. The level of polymorphism varied between taxonomic units depending on the primers employed and the plant reproductive system. In general, the most variable were the allogamous species H. secalinum and H. bulbosum and the autogamous H. marinum subsp. marinum. Among the amplified bands, 69 (27%) were shared by at least two different taxonomic units. The remaining bands were specific. The results demonstrate differences in the degree of similarity between taxonomic units. Jaccard’s similarity coefficients for interval measure within and between populations were used to produce a cluster diagram using the unweighted pair-group method (UPGMA). The different populations of the species and subspecies of Hordeum fell into three groups. The first group contained the populations belonging to both subspecies of H. marinum, plus those of H. secalinum. The populations of H. marinum subsp. gussoneanum were very closely associated. Those of H. marinum subsp. marinum were grouped in a broad cluster. The second group, occupying the innermost position of the tree, was very closely associated with the populations of both subspecies of H. murinum. The third branch segregated H. bulbosum. A series of RAPD markers were investigated by cleaving the amplified products of the same size with restriction endonucleases that recognize targets of 4- or 6-bp. The production of equivalent fragments following cleavage by the same enzyme would seem to demonstrate their homology in samples from different individuals, populations or taxonomic units. Received: 18 May 1997 / Accepted: 22 August 1997     

Glycine oxidation in mitochondria isolated from light grown and etiolated plant tissue

Mitochondria were isolated from light grown and dark grown monocotyledonous (wheat- Triticum aestivum and barley- Hordeum vulgare ) and dicotyledonous (pea- Pisum sativum ) plants and their capacity to oxidize glycine was measured. In all of the studied plant species the rate of mitochondrial glycine oxidation was high in light grown leaves. Glycine oxidation in mitochondria from etiolated leaves was also very substantial; the rate of glycine oxidation relative to the oxidation of other substrates was about half as compared to green tissue. In etiolated non-photosynthetic tissues the relative glycine oxidation was only ca 20% of that measured in green leaves. The effect of light on the development of glycine oxidation capacity was studied using etiolated barley which was transferred to light for 6 to 24 h. During this time the rate of glycine oxidation as compared to the oxidation of NADH and malate increased, approaching the ratio observed in light grown leaves. It is concluded that the synthesis of proteins involved in glycine oxidation is regulated both in a light dependent and in a tissue specific manner. Monocotyledonous plants should be very useful for further studies of this aspect due to the relatively small developmental difference between etiolated and light grown leaf tissue.     

Effects of β-glucanase supplementation of barley diets on growth performance of broilers

A trial was performed to examine the effects of levels of barley substitution and supplementation with β-glucanase in a corn-soybean diet on growth performance and intestinal characteristics of broiler chickens. The experiment involved five levels of barley substituted for corn (0, 125, 250, 500, and 1000 g/kg) and two levels of β-glucanase supplement (with 0.5 g/kg and without) in a factorial arrangement with two replicates. Four hundred day-old commercial strain Harber broiler chickens were randomly allocated into twenty groups of ten dietary treatments for a six-week feeding trial, growing (0-3 week) and finishing period (4-6 week). Unless supplemented with β-glucanase, broilers receiving the diet with more than 250 g/kg of the barley substitute gained slower during the growth period. Conversely, supplementing β-glucanase did not improve total weight gain (0-6 weeks) with a diet of 500 g/kg barley substitution. As the level of barley substitution increased, feed intake in the growing period decreased significantly and viscosity of the intestinal contents increased. However, such an increase did not significantly influence feed conversion (P > 0.05). Supplementation with β-glucanase on diet up to 250 g/kg of barley substitute not only enhanced body weight gains of growing broilers, but also improved the live-weight of six-week-old broilers (P < 0.05).