Genetics of induced dwarf mutants in pearl millet,Pennisetum americanum (L.)Leeke

Summary Inheritance pattern of seven dwarf mutants revealed each of them to be controlled by a single recessive gene. Tests for allelism indicated existence of two groups of dwarfs, group 1 comprising six mutants and group 2 a single dwarf. The dwarfs of group 1 were found to be allelic to D₂ of the dwarf types already known in this crop and the dwarf of group 2 was allelic to D₁ of these types.Botany Department, R.V.V.N. College, Dharanikota, India.     

Inheritance of genetic malesterility in Pennisetum americanum (L.) Leeke

Summary A spontaneously occurring male sterile condition was located in an inbred line Vg 272 of Pennisetum americanum. Male sterility was inherited as a monogenic recessive condition and showed independent assortment with hairy leaf surface phenotype. Transfer of male sterile allele to inbreds Vg 212 and IP 482 revealed no cytoplasmic effects on the expression of male sterility. Stigmas of the male sterile plants were found to possess the same amount of receptivity upto three days with normal seed set, upto six days with reduced seed set and almost with nil receptivity on the seventh day.     

Confirmation of a new source of cytoplasmic-genic male-sterility in bulrush millet (Pennisetum americanum (L.) Leeke)

Summary Results of a previous study indicated that the male-sterility discovered in a population of ex-Bornu bulrush millet, an improved selection from northern Nigeria, may represent a new source of male-sterility in the species. The present experiment was conducted to test this hypothesis.Tifton 23B₁, Tifton 239B₂ and L67B₃ which are male-sterility maintainers for the three known sources of cytoplasmic-genic male-sterility in bulrush millet viz. A₁, A₂ and A₃, respectively, were crossed with male-sterile ex-Bornu. All three maintained male-sterility in ex-Bornu but not as well as gero-B, which is the selfed progeny of an ex-Bornu plant was an excellent maintainer for ex-Bornu. Gero-B maintained male-sterility in Tifton 23A₁ and L67A₃ sources but was a partial fertility restorer for Tifton 239A₂. Tifton 186 which was reported to be a maintainer for A₁, A₂ and A₃ sources restored male-fertility in ex-Bornu. These results confirmed the view that male-sterile ex-Bornu is a new source of cytoplasmic-genic male-sterility in bulrush millet.     

Production of 27-, 28-, and 56-chromosome apomictic hybrid derivatives between pearl millet (2n=14) and Pennisetum squamulatum (2n=54)

Summary An interspecific hybridization program designed to transfer gene(s) controlling apomixis from Pennisetum squamulatum Fresen. (2n=6x=54) to induced tetraploid (2n=4x=28) cultivated pearl millet, Pennisetum americanum (L.) Leeke resulted in four offtype plants, two with 27 chromosomes and two with 28 chromosomes. These plants were found among 217 spaced plants established from open-pollinated seed of an apomictic 21-chromosome polyhaploid (2n=21) plant derived from an apomictic interspecific hybrid (2n=41) between tetraploid pearl millet and Pennisetum squamulatum. It appeared that a 21- (or 20-) chromosome unreduced egg from the apomictic polyhaploid united with a 7-chromosome pearl millet (2n=2x=14) gamete to produce a 28- (or 27-) chromosome offspring. Meiotic chromosome behavior was irregular averaging from 3.60 to 4.05 bivalents per microsporocyte in the 27- and 28-chromosome hybrids. The 27- or 28-chromosome hybrids, like the 21-chromosome female parent, shed no pollen, but set from 1.8 to 28 seed per panicle when allowed to outcross with pearl millet. Progeny of the 28-chromosome hybrids were uniform and identical to their respective female parents, indicating that apomixis had been effectively transferred through the egg. In addition, a 56-chromosome plant resulting from chromosome doubling of a 28-chromosome hybrid was identified. Pollen was 68 per cent stainable and the plant averaged 2.3 selfed seeds per panicle. Chromosomes of the 56-chromosome plant paired as bivalents (x=10.67) or associated in multivalents. Three to nine chromosomes remained unpaired at metaphase I. Multiple four-nucleate embryo sacs indicated the 56-chromosome hybrid was an obligate apomict. The production of 27-, 28-, and 56-chromosome hybrid derivatives were the results of interspecific hybridization, haploidization, fertilization of unreduced apomictic eggs, and spontaneous chromosome doubling. These mechanisms resulted in new unique genome combinations between x=7 and x=9 Pennisetum species.     

Estimates of stability for comparing varieties

Summary For purposes of comparison of analytical methods the yield data on pearl millet hybrids and varieties for five years from locations in India and Pakistan have been analysed using a regression analysis and a meanstandard deviation analysis. The results of the mean-standard deviation analysis and the regression analysis were similar whether carried out on all environments, or on the highest- and lowest-yielding sets of environments. This was substantiated by the remarkable correlation between the slopes from the regression analysis and the standard deviations whatever environmental set was considered. The validity of using a single year's across location data with the mean-standard deviation analysis, if choice-theoretic criteria are used, was examined. It is concluded that, although further confirmation is required, single-year data seem to suffice. The relative merits of the mean-standard deviation analysis and a regression analysis are discussed; the choice-theoretic framework of the mean-standard deviation analysis is advantageous and complementary to the regression analysis.     

Genotypic differences in callus growth and organogenesis of eight pearl millet lines

Summary Calli were obtained from mesocotyl explants of eight varieties of pearl millet using MS medium supplemented with 2,4-D. Variable frequencies of callus initiation were observed among the varieties. Plantlets were regenerated from the calli by transferring on to the medium devoid of auxins. Incorporation of coconut milk, Kinetin, IAA or NAA did not enhance either the callus initiation or growth rate or plantlet regeneration. The eight genotypes differed among themselves in callus growth rate and frequency of shoot bud production.     

Genetics of allozyme variants and linkage groups in lentil

Summary The genetics of 8 electrophoretically detectable enzymes in lentil was examined. The enzyme systems glutamic-oxaloacetic transaminase, malic enzyme, phosphoglucomutase, alcohol dehydrogenase, 6-phosphogluconate dehydrogenase, shikimic dehydrogenase and isocitrate dehydrogenase were assayed. The allozymes at each of the studied loci behaved in a codominant manner and segregated in the expected Mendelian fashion. Linkage tests between these loci and an additional morphological trait revealed two linkage groups that involved 5 loci, the rest were independent of each other.     

Evidence of a partial reproductive barrier between wild and cultivated pearl millets (Pennisetum glaucum)

Summary The occurrence of seed malformation in association with reduced thousand grain weight and germination ability has been observed in crosses between cultivated female plants and wild male plants. A survey of 16 cultivated accessions (P. glaucum subsp. glaucum) and 11 wild accessions (P. glaucum subsp. monodii) ranging over the whole species diversity showed this postzygotic incompatibility was general, but its intensity varied greatly with the cultivated female accession used and very little with the wild male parent origin. About 15% of the 123 cultivated x wild crosses observed gave normal seeds. Seed malformation has never been observed in crosses between cultivated accessions and appeared independent of genetic distances between the parents. The reciprocal crosses between wild female plants and cultivated male plants gave normal-looking seeds with good germination but consistently reduced thousand grain weight. Both seed malformation and seed small size are an expression of a genetic imbalance. These slight reproductive barriers seem to have been built during the domestication process.Abbreviation ICRISAT International Crop Research Institute for the Semi-Arid Tropics     

Diversity of penicillarian millets (Pennisetum glaucum and P. purpureum) as for the compatibility between their gynoecia and pollens from some other Poaceae

Summary The compatibility between gynoecia of different penicillarian millets (Pennisetum glaucum and P. purpureum) and pollens from some other Poaceae was evaluated in order to determine whether different penicillarian pistils showed the same pistil-pollen interactions with a same non-penicillarian pollen and to determine whether compatibility was dependent on the genetic divergence or the degree of sympatric evolution of the mating partners. Ten pearl millet lines (P. glaucum subsp. glaucum), six wild pearl millet accessions (P. glaucum subsp. monodii) and one P. purpureum accession were pollinated with five other Pennisetum species: P. pedicellatum, P. polystachyon, P. schweinfurthii, P. squamulatum, P. ramosum, and with three species from other genera: Cenchrus ciliaris, Panicum maximum and Zea mays. Each male species was represented by a unique accession. Pollen grain germination on the stigmata and pollen tube growth in the gynoecia were monitored by means of fluorescence microscopy after aniline blue staining. Significant compatibility differences were observed between a given pollen and gynoecia from different P. glaucum accessions. But there was no evidence of compatibility differences between the three female taxonomic groups. The eight pollen parents can be classified into three groups according to their mean degree of compatibility with the different penicillarian gynoecia. P. ramosum, P. schweinfurthii and P. squamulatum showed a high compatibility: more than 50% of penicillarian gynoecia had pollen tubes at the micropyle, six hours after pollination. Zea mays, Cenchrus ciliaris and Panicum maximum showed a low compatibility: pollen tubes were arrested in the style. P. pedicellatum and P. polystachyon showed nil compatibility: few pollen grains germinated on the stigmata and very rare tubes reached the entry of the style, where they stopped. It must be noted that such a strong gametic barrier has been observed only with pollinator species sympatric to pearl millet.     

Pollen pistil interactions and interspecific incompatibility in Pennisetum

Summary The causes of low crossability between Pennisetum species were studied. In the compatible cross P. typhoides x P. violaceum, the pollen tube growth was normal and there was good seed set. In P. typhoides x P. cenchroides, pollen tubes reached the ovary but no seed set was obtained indicating ovarian incompatibility. The stylar incompatibility was found in the crosses of P. typhoides with P. schweinfurthii, P. hohenackeri, P. orientale and P. squamulatum. In crosses P. typhoides x P. polystachyon and P. typhoides x P. pedicellatum, mostly pollen tubes did not grow beyond stigmatic surface and only few reached the style. Stigmatic as well as stylar incompatibilities seem to be the reasons for no seed set in these crosses.     

Identification,characterization and geographic distribution of male-sterility restorer and maintainer lines from diverse pearl millet germplasm

Summary To determine the distribution and geographic specificity of sterility maintainers in pearl millet, Pennisetum americanum (L.) Leeke, 428 diverse pearl millet germplasm accessions representing variation from 12 countries were crossed with a male-sterile line 5141A. The F₁ hybrids were classified as male-fertile or male-sterile based on the seed set on bagged ear heads and an other morphology. Among these, 87 (20.3%) were classified as male-fertile, 32 (7.5%) as male-sterile, 282 (65.9%) as segregating for male-fertile/male-sterile and 27 (6.3%) behaved as male-fertile in the rainy and male-sterile in the postrainy season. Restorer lines were distributed in all the countries studied except Cameroon and USSR. Maintainer lines were observed from six countries but were concentrated in India. These maintainer lines differ from one another in several morphological and agronomic characters such as flowering, plant height, spike length and grain size. They may prove to be useful sources of material for generating new male-sterile lines. The restorers can be used to produce commercial hybrids.Submitted as J.A. No. 719 by the International Crops Research Institute for the Semi-Arid Topics (ICRISAT).     

A linkage group in rice (Oryza sativa L.) involving anti-inhibitory genes

Summary Inheritance studies of purple pigmentation in T-160 x AC-177 revealed that purple colour in the coleoptile is based on four genes (Pc ₁ , Pc₂, I-Pc, Ai-Pc), in the internode on two genes (Pin _a1 , Pin _a2 ), in the junctura on three genes (Pja, Pjb ₁ , Pjb ₂ ) and in the apiculus on three genes (Pa, I-P, Ai-P). For panicle density monogenic segregation (Lx) was obtained. Linkage was established between the genes for the apiculus (Pa and Ai-P), panicle density (Lx), the internode (Pin _a ), the coleoptile (Ai-Pc) and the junctura (Pja), in that sequence. This linkage group forms part of the IV mp group of Misro et al. (1966) which corresponds to the g group of japonica.The two anti-inhibitory genes Ai-Pg and Ai-Pau of the linkage group Ai-Pg=Ai-Pc=Ai-Pau reported earlier (Dhullappanavar et al., 1975) are also allotted to the IV linkage group of Misro et al. (1966) since Ai-Pc is placed in that group in the present studies.     

Impact of natural and human selection on the frequency of the F1 hybrid between cultivated and wild pearl millet (Pennisetum glaucum (L.) R. Br.)

In the Sahel, pearl millet yields are affected by the proportion of hybrid phenotype plants resulting from genetic mixing between domesticated and wild forms. Man counteracts this mixing by applying a production method, the efficiency of which is quantified in this study. Under experimental conditions, cultivated and wild pearl millet were hybridised in order to obtain cultivated pearl millet seeds including a known proportion of F1 hybrids tagged by two different allozymes. These seeds were sown in the field and the cultivation was conducted following practices common in the Sahel. The evolution of the survival rate of plants and the frequency of hybrids were followed over several stages during the season: sowing, germinating, emergence, thinning, flowering and maturing of the seeds. Owing to plant mortality in the experiment, the average tendency was a hybrid frequency that decreased steadily in the first part of the growing season from 42% during germination, to 37% at emergence. It then fell to 17% after the thinning of the plantlets by the farmer. At the end of the cycle, after thinning, only 11% of mature plants were hybrids. Thus, under the combined pressures of natural and human selection, the frequency of hybrids in the field declined drastically. In interaction with natural pressure, the farmer's practices of selection of seeds, sowing in pockets and thinning have the combined effect of heavily selecting the cultivated genotype and limiting without completely preventing the introgression of wild pearl millet genes into the cultivated genome. This revised version was published online in July 2006 with corrections to the Cover Date.     

Inheritance and linkage relationship of scent in rice

Summary The inheritance of scent in rice and linkage relationship of genes governing scent with those controlling leaf sheath colour, ripening hull colour and apiculus pigmentation were studied in a cross between Pankaj (nonscented) and Kalabhat (scented) rice cultivars. The scent was identified by leaf analysis.Two dominant complementary genes Sk ₁ and Sk ₂ were found to be responsible for controlling scent. Either of the genes produce mild scent, the presence of both Sk ₁ and Sk ₂ is necessary for production of parental type scent. The genes were independent of other genes controlling leaf sheath colour, ripening hull colour and apiculus pigmentation.     

Characterization of seed producing pearl millet x elephantgrass hexaploid hybrids

Summary Successful widespread use of a forage or biomass plant depends largely on its ease of establishment. Elephantgrass (Pennisetum purpureum Schum.) is used for both forage and biomass production, due to its high dry matter production, aggressiveness, perenniality, and forage quality. However, lack of high quality seed has limited the use of elephantgrass and its hybrids to pearl millet (P. glaucum L. R.Br.). Development of a seed-propagated pearl millet x elephantgrass hexaploid cultivar, which would combine desirable characteristics from both of these species, would be highly desirable. The objectives of this study were to characterize morphological and seed-related traits from the selfed progeny of seven hexaploid hybrids, and to determine whether seed size had any influence on these traits. Traits studied included number of tillers, height, leaf length and width, panicles per plant, days to flowering, panicle length, seed set, seed production, and weight of 100 seeds. Genetic differences were found among the progeny of the seven hybrids. Differences were also found between plants derived from large- and small-seed lots within families. Plants descended from larger seed had better growth and seed-related characteristics, which resulted in more desirable plants. These hexaploid hybrids showed potential for direct seeding into the field for biomass or forage production.     

Cytoplasmic differentiation using near-isonuclear polycytoplasmic male sterile lines in pearl millet

Summary Five near-isonuclear polycytoplasmic versions of 81A₁ and two of Pb 402A₃ male sterile lines of pearl millet (Pennisetum typhoides), along with their corresponding maintainer lines (81B and Pb 402B) were studied for 14 agronomic and two disease traits, and for isozymes of peroxidase in anthers and leaves for assessing cytoplasmic differences. Significant differences among isonuclear polycytoplasmic lines of both 81A₁ and Pb 402A₃, having the same genome and variable cytoplasms, were observed for several agronomic traits. Banding pattern of peroxidase isozymes revealed clear cut differences among cytoplasms. The results provide evidence for the influence of cytoplasmic factors on the phenotypic expression of nuclear genes.     

Recurrent Addition of the Pennisetum americanum Genome in a P. americanum×P. orientale Hybrid

An interspecific hybrid involving Pennisetum americanum (2 n = 14) and a diploid cytotype of P. orientale (2 n = 18) was backcrossed to P. americanum using the hybrid (2 n = 16, 7‘A’+ 9 ‘O’) as the female parent. Pollen mother cells of 13 BC₁ plants contained a complement of 14‘A’+ 9 ‘O’ chromosomes. Five BC₂ plants obtained through further backcrossing to P. americanum had 21‘A’+ 9 ‘O’ chromosomes revealing another addition of the P. americanum genome. The role of such recurrent additions of parental genomes in the evolution of polyploid species has been discussed.     

Smut reaction of pearl millet hybrids affected by fertility restoration and genetic resistance of parental lines

Summary Pearl millet (Pennisetum glaucum (L.) R. Br.) hybrids based on the A₁ cytoplasmic-nuclear male-sterile (CMS) lines are more susceptible to smut (Tolyposporium penicillariae Bref.) than open-pollinated varieties. Seventy eight pairs of hybrids, made onto male-sterile (A) lines and their counterpart maintainer (B) lines, were evaluated to examine the effects of male sterility and genetic resistance of parental lines on the smut severity of hybrids. The A-line hybrids had higher smut severity and lower selfed seedset than the counterpart B-line hybrids, indicating that it is the CMS-mediated male sterility rather than the A₁ cytoplasm per se that caused greater smut severity of A-line hybrids. However, with the use of resistant parental lines even male-sterile hybrids of A-lines, in several cases, were as resistant as some of the highly resistant male-fertile hybrids of B-lines. It would be possible to produce smut resistant hybrids (< 10% severity) on A-lines, albeit in low frequency, even if only one parent of a hybrid were resistant. However, the probability of producing such hybrids would be higher when both parents were resistant to smut. Thus, improvement in smut resistance of parental lines and fertility restoration ability of pollinators would provide the most effective genetic approach to smut disease management in hybrids.Submitted as JA No 1737 by the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT).     

A linkage group for genes governing pod characters in peanut

Summary Inheritance and linkage relationships were studied for six morphological characters in a cross between Arachis monticola Krap. et Rig. and A. hypogaea L. All the characters were found to be governed by single dominant genes. The genes governing leaflet krinkling and peg pigmentation assorted independently while the genes for four pod characters viz. catenate nature, beak, reticulation and thin pericarp showed linkage. A linkage map for these genes was proposed.     

Morphology,cytology and forage potential of Pennisetum americanum (L.) K. Schum. x P. Purpureum Schum. amphidiploids

Summary F₁ hybrids between short-day photoperiod- sensitive maiwa bulrush millet, Pennisetum americanum (2n=14), and elephant grass, P. purpureum (2n=28), are triploid (2n=21), sterile, and can only be propagated vegetatively. Fertile amphidiploids, (2n=42, with 21 bivalents) were produced by colchicine treatment. Good seed set was obtained upon selfing the amphidiploids and the progeny exhibited variable pollen fertility and bivalent univalent and multivalent formation.Reciprocal crosses between elephant grass and the colchicine-induced amphidiploid failed to produce seeds. The maiwa millet x amphidiploid cross resulted in poor seed set and the reciprocal failed. Maiwa x amphidiploid hybrids were pollen sterile with 2n=21, rather than the expected 2n=28, indicating chromosome elimination.Morphologically, the amphidiploids and maiwa x amphidiploid hybrids closely resembled elephant grass and the F₁ hybrid. The amphidiploids showed no superiority over the F₁ hybrid and elephant grass in either forage yield or quality but one maiwa x amphidiploid genotype surpassed a promising local elephant grass selection in forage dry matter yield and flowered for a relatively short period.