Conversion of sucrose to starch in the developing Pennisetum typhoides grain

Developing grains of pearl millet ( Pennisetum typhoides Burm. S & H cv. PIB 155) were sampled and analyzed for starch and its free-sugar precursors. The activities of invertase, sucrose-ADP (UDP) glucosyl transferase and of α-amylase and β-amylase in relation to the rate of starch accumulation in the developing grain were assayed. By culturing detached ears, the incorporation of ¹⁴C from free sugar precursors to starch was studied. The starch content gradually increased until grain maturity. The rate of starch accumulation was maximum around 12 days after anthesis. Around this period, the activities of sucrose-ADP(UDP) glucosyl transferase and α-amylase, β-amylase were also at a peak. Invertase activity was high during the early period of grain development but gradually declined as the grains matured. In the most actively metabolising milky grains, incorporation of ¹⁴C from [¹⁴C]-sugars to starch was maximum in the mid mid-milky grains. Addition of 20 m M K⁺ to the culture solution did not affect the incorporation of ¹⁴C from supplied sucrose to the free sugar pool and to the starch of the grain, but Mg²⁺ supply at 20 m M concentration lowered ¹⁴C incorporation from exogenous sucrose to grain free sugars, although the utilization of the latter for starch synthesis was enhanced.     

The influence of temperature during seed development on the germination characteristics of millet seeds

Abstract. The cardinal temperatures, rate of germination and final percentage germination of pearl millet seeds were measured for seeds raised in greenhouses maintained at mean air temperatures of 19, 22, 25, 28 and 31°C. The results showed that cardinal temperatures for germination are unaffected by the temperature during seed development and growth. However, the conditions during seed growth did affect seed size and, subsequently, germination rate and seed viability.     

Mitochondrial DNA rearrangements in Pennisetum associated with reversion from cytoplasmic male sterility to fertility

Endonuclease restriction fragment patterns of Pennisetum americanum L. mitochondrial DNAs (mtDNAs) from a cytoplasmic male-sterile (CMS-A1), fertile revertants and a normal fertile cytoplasm were variable, while chloroplast DNA from those lines lacked variation. Comparisons between mtDNAs of CMS-A1 (parental) and fertile revertant lines revealed the presence of a unique 4.7 kbp PstI fragment in the sterile line that was not detected in any of the revertant lines. A 9.7 kbp PstI fragment was found in all of the revertants, but not in the CMS-A1. Neither of those fragments was found in the normal cytoplasm mtDNA. Hybridization studies revealed two sets of multiple homologies: 1) the 4.7 kbp fragment had homology with a 10.9 kbp and a 13.6 kbp fragment; and 2) the 9.7 kbp fragment was homologous with the 13.6 kbp fragment. The presence of those two repeated mitochondrial sequences on the altered fragments suggests that they may be involved in the recombinational associated events with reversion from CMS to fertility in P. americanum.Florida Agricultural Experiment Station Journal Series No.7797.     

施用氮、磷肥对作物体内养分含量的影响

２年四季盆栽试验结果表明：（１）施用磷肥能改善作物地上部生物学产量向籽粒分配．在Ｎ、Ｐ胁迫条件下,施Ｎ增加非经济产量与经济产量比值．（２）对于谷子,在Ｎ、Ｐ亏缺条件下,施Ｎ能增加茎叶含Ｎ量,降低Ｎ向籽粒中转移;施磷能改善Ｎ在茎叶与籽粒之间的分配。（３）对于小麦,在Ｎ或Ｐ胁迫条件下,补施Ｐ或Ｎ均能增加冠根吸Ｎ量之比,对于谷子,其对冠根吸Ｎ量之比影响与小麦完全不同．（４）谷子在Ｎ、Ｐ胁迫条件下,施Ｎ能降低Ｐ在籽粒中积累,施Ｐ却能显著地改善磷向籽粒中转移,小麦在Ｎ、Ｐ胁迫条件下,增施Ｐ或Ｎ均能显著改善磷向籽粒中转移。     

Linkage of the alcohol dehydrogenase structural genes in pearl millet (Pennisetum typhoides)

Pearl millet produces three ADH isozymes, Sets I, II, and III. Naturally occurring ADH electrophoretic variants affecting Sets I and II isozymes but not III have been previously described. Analysis of such variants led to the identification of the Adh1 structural gene. The existence of a second Adh structural gene was inferred from dissociation-reassociation studies of Set II. In the present report, a naturally occurring variant affecting the electrophoretic mobility of Sets III and II but not Set I is described. Analysis of this variant confirms the existence of a second structural gene, Adh2. Crosses utilizing this Adh2 marker reveal a dissimilarity with maize and other plants such as sunflower and narrow-leafed lupins. Adh1 and Adh2 of pearl millet do not segregate independently; indeed, no recombinants have been observed. This is the first major difference encountered in an otherwise remarkably similar genetic and environmental control of the ADH isozymes in maize and millet. The organization of the Adh genes of pearl millet may reflect a more primitive arrangement than that of maize.This work was supported by a PHS National Research Service Award Training Grant in Genetics to the Biology Department of the University of Oregon.     

Osmotic adjustment to water stress in pearl millet (Pennisetum americanum [L.] Leeke) under field conditions

Abstract. Osmotic adjustment, a mechanism whereby plants maintain positive turgor despite low water potential (ψ), was investigated in pearl millet ( Pennisetum americanum [L.] Leeke) in three types of field experiment at Hyderabad, India:

• (1)

  Osmotic adjustment during the growing season was evaluated by comparing solute potential (ψ_s) of leaves taken at midday from irrigated and droughted plots and allowed to rehydrate in the laboratory. The degree of seasonal adjustment was also estimated by comparing observed values of ψ_s in the field with those expected if ψ_s decreased solely in proportion to water loss. Both types of assessment indicated the maximum seasonal adjustment to be about 0.2 MPa. The cultivars BJ 104 and Serere 39 differed in their capacity to adjust osmotically over the season; Serere 39 was least able to osmoregulate.
• (2)

  Measurements of diurnal variations in ψ and ψ_s in BJ 104 revealed osmotic adjustment during the afternoon hours. At a given value of ψ, turgor (ψ_p) was about 0.1 MPa higher in irrigated, and over 0.2 MPa higher in droughted plants, in the afternoon, than in the morning.
• (3)

  Osmotic adjustment of different leaves within the canopy was investigated. Upper leaves had lower ψ than basal leaves. Differences in ψ were matched by gradients in ψ_s, so that turgor was similar for all leaf layers.

     

Gibberellin-responding and non-responding dwarf mutants in foxtail millet

The sensitivity of foxtail millet (Setaria italica Beauv.) dwarf mutants to GA was studied. Seedlings of dwarf mutants, Aininghuang (ANH) and CH84113 were treated with GAs (GA1, GA4, GA9, GA19 and GA20) using the micro-drop method, or by soaking in GA3 solution. Plants were also sprayed with GA3 solution at the jointing stage. It was found that ANH was a GA-responding dwarf mutant, whose leaf blade, leaf sheath and internode length increased significantly after GA application, whereas CH84113 was a non-GA-responding dwarf mutant. However, the mesocotyl in etiolated seedlings of both ANH and CH84113 responded to exogenous GA3 in a similar way. With the help of an enzyme-linked immunosorbent assay, it was found that the endogenous GA1+3 level in leaves was lower in the GA-responding dwarf mutant ANH, but higher in the non-GA-responding dwarf mutant CH84113, compared with levels in normal cultivars.     

Effect of crop residues on root growth and phosphorus acquisition of pearl millet in an acid sandy soil in Niger

The effect of long-term (1983–1988) applications of crop residues (millet straw, 2–4 t ha^-1 yr^–1) and/or mineral fertilizer (30 kg N, 13 kg P and 25 kg K ha^-1 yr^-1) on uptake of phosphorus (P) and other nutrients, root growth and mycorrhizal colonization of pearl millet (Pennisetum glaucum L.) was examined for two seasons (1987 and 1988) on an acid sandy soil in Niger. Treatments of the long-term field experiment were: control (–CR–F), mineral fertilizer only (–CR+F), crop residues only (+CR–F), and crop residues plus mineral fertilizer (+CR+F).In both years, total P uptake was similar for +CR–F and –CR+F treatments (1.6–3.5 kg P ha^-1), although available soil P concentration (Bray I P) was considerably lower in +CR–F (3.2 mg P kg^-1 soil) than in –CR+F (7.4) soil. In the treatments with mineral fertilizers (–CR+F; +CR+F), crop residues increased available soil P concentrations (Bray I P) from 7.4 to 8.9 mg kg^-1 soil, while total P uptake increased from 3.6 to 10.6 kg P ha^-1. In 1987 (with 450 mm of rainfall), leaf P concentrations of 30-day-old millet plants were in the deficiency range, but highest in the +CR+F treatment. In 1988 (699 mm), leaf P concentrations were distinctly higher, and again highest in the +CR+F treatment. In the treatments without crop residues (–CR–F; –CR+F), potassium (K) concentrations in the leaves indicated K deficiency, while application of crop residues (+CR–F; +CR+F) substantially raised leaf K concentrations and total K uptake. Leaf concentrations of calcium (Ca) and magnesium (Mg) were hardly affected by the different treatments.In the topsoil (0–30 cm), root length density of millet plants was greater for +CR+F (6.5 cm cm^-3) than for +CR–F (4.5 cm cm^-3) and –CR+F (4.2 cm cm^-3) treatments. Below 30 cm soil depth, root length density of all treatments declined rapidly from about 0.6 cm cm^-3 (30–60 cm soil depth) to 0.2 cm cm^-3 (120–180 cm soil depth). During the period of high uptake rates of P (42–80 DAP), root colonization with vesicular-arbuscular mycorrhizal (VAM) fungi was low in 1987 (15–20%), but distinctly higher in 1988 (55–60%). Higher P uptake of +CR+F plants was related to a greater total root length in 0–30 cm and also to a higher P uptake rate per unit root length (P influx). Beneficial effects of crop residues on P uptake were primarily attributed to higher P mobility in the soil due to decreased concentrations of exchangeable Al, and enhancement of root growth. In contrast, the beneficial effect of crop residues on K uptake was caused by direct K supply with the millet straw.     

Reconstructing the genetic admixture history of Tai-Kadai and Sinitic people: Insights from genome-wide SNP data from South China

South China (SC) was a region with mixed rice–millet farming during the Middle Neolithic period and was also suggested to be the homeland of Tai-Kadai (TK)-speaking people. However, the formations of inland TK-speaking people and southwestern Hans are far from clear due to very few studies on this subject. Here, we reveal the spatiotemporally demographic history of SC by analyzing newly-generated genome-wide SNP data of 115 modern southwestern individuals and find that inland TK-speaking Dongs and Bouyeis have a close genomic affinity to coastal TK/Austronesian (AN)-speaking people and Neolithic Yangtze River basin (YZRB) farmers, while southwestern Hans and TK-speaking Gelaos possess a close genomic affinity to Neolithic Yellow River basin (YRB) farmers. Genetic differentiations are identified among TK people from SC and Southeast Asia, and between northern and southern inland Chinese TK people, in which the identified shared genetic ancestry between TK and AN people highlights a common origin of AN/TK groups. Conclusively, our findings indicate that millet farmers deriving from the YRB and rice farmers deriving from the YZRB substantially contribute to the present-day inland TK speakers and southwestern Hans via a two-way admixture scenario of bi-directional gene-flow events, which facilitates the formation of a modern two-way genetic admixture profile.     

硒和碲对缓解糜子镉毒害及减少籽粒镉积累的调控效应

提高糜子(Panicum miliaceum)镉耐受性与低积累能力对镉污染地区糜子的安全生产具有重要意义。该研究以镉耐受和镉敏感糜子品种为材料, 通过苗期水培和全生育期盆栽试验, 分析不同形态硒和四价碲对镉胁迫下糜子生长、根系形态、镉吸收转运和籽粒矿质营养含量的影响。结果表明, 外源添加硒和碲能缓解镉毒害, 其中有机硒缓解效果较好。与单独镉处理相比, 硒和碲能够促进根系直径增加并抑制镉吸收, 最高可使根系镉含量降低33%。此外, 硒和碲能够增加细胞壁和液泡中镉的占比, 提高镉耐受性。叶面喷施硒提高了糜子籽粒中锌、锰和钼等矿质营养元素含量。无机四价硒能更有效地抑制镉从营养器官向籽粒的转运, 在5 mg·kg^-1镉处理下, 可使镉敏感和镉耐受品种籽粒镉含量分别降低11.3%和20.3%。综上, 外源添加硒能够显著提高糜子镉耐受性并减少籽粒镉积累。研究结果可为镉污染地区糜子的安全生产提供参考。