Pattern of Nucleolar Growth in Differentiating Cotton Fibres (Gossypium hirsutum L.)

The nucleolar size in cotton fibres has been examined at earlystages of growth by light microscopy. The volumes of the nucleoliwere computed from the perimeters measured by means of a projectionmicroscope. The frequency distributions were normal at eachstage. The mean nucleolar volume increased rapidly, reacheda maximum around 10 d after anthesis and declined to a constantvalue around 20 d after anthesis. The nucleolar growth patternsof some prediction models have been compared with the in situobservations. This comparison suggests a simultaneous increasein nucleolar size in all fibres within a population. Therefore,the hypothesis that the size of the fibres is correlated withthe size of resident nucleoli, is favoured. Gossypium hirsutum, cotton fibre, nucleolus, cell differentiation     

Freezing injury to ovules, pollen and seeds in winter rape

Winter rapeseed (Brassica napus, cv. Samouraï) flowersearly in spring and, under field conditions, short freezingperiods can occur. Unacclimatized plants were freeze-stressed(–3°C for 4 h) at different developmental stages ofbuds, open flowers and seeds. The dissection of pistils from stressed plants showed that freezingresults in shrivelled ovules. We assessed freezing injury onthe basis of per cent of shrivelled ovules: ovule sensitivitybegins early (8 d before anthesis) but increases up to anthesis.Crosspollination of stressed pistils with non-stressed pollenshowed that recording of freeze-injured ovules is a good methodfor early estimation of the effect of stress on seed yields. On the other hand, stress does not reduce the viability of pollen,except when it was applied at the binucleate pollen stage. Useof frozen pollen x nonstressed pistils has little effect onseed yields. Freeze injury on seeds was assessed by seed filling:seeds are very susceptible just after fertilization until 20d after fertilization (DAF). Freezing seems to inhibit seedfilling. A germination test of stressed seeds during their developmentindicated that embryo viability is not affected if the stressoccurs after 35 DAF. As the embryos develop, resistance to stressincreases. Key words: Brassica napus, rapeseed, freeze injury, pollen and ovule, seed filling     

Simulating in ovulo osmotic potentials and O<Subscript>2</Subscript> tensions normalize growth and pigmentation of immature cotton embryos

Oxygen tensions and osmotic potentials are important physiological factors of plant growth and development. To optimize these variables for cotton (Gossypium hirsutum L.) embryo culture, we quantified dissolved O₂ (dO₂) tensions, osmotic potentials, and pH at several locations in cotton ovules during embryony. Clark O₂ microelectrodes were micromanipulated into intact ovules at an angle lateral to the developing embryo, and dO₂ tensions were determined in integuments, nucelli and embryos. Ovular osmotic potentials and pH were determined from extracted ovule sap using vapor pressure osmometers and pH microelectrodes. Dissolved O₂ tensions near or in embryos decreased from 104 mmol m⁻³ at 5 days post-anthesis (DPA) to 83 mmol m⁻³ at 18 DPA. Osmotic potentials of ovule sap decreased from −0.70 megapascals (MPa) at 2 DPA to −1.12 MPa at 8 DPA but then increased to −0.84 MPa by 17 DPA. Ovule sap pH at 5–17 DPA varied inconsistently and ranged from 5.4 to 6.5. Based on these results, a factorial experiment with two osmotic and three O₂ treatments was designed. Immature embryos of cotton cultivar HS-26 were randomly assigned to the treatment combinations and cultured for 33 days. Oxygen treatments did not affect embryo growth, and there were no differences among treatments with regard to percentage of embryos that progressed to a more advanced stage of embryo development. However, cotyledons of embryos grown without osmotic adjustment were abnormally large, and embryos exposed to these treatments were abnormally brown. Browning was less severe for embryos exposed to low O₂ tensions. Growth and pigmentation were most normal for embryos simultaneously exposed to O₂ tensions and osmotic potentials that best simulated the observed in ovulo conditions.     

In vitro gynogenesis in cotton (<Emphasis Type="Italic">Gossypium</Emphasis> sp.)

The effects of genotype, pollen or growth regulator-pretreatment of pistils, developmental stage of the ovule (embryo sac) and culture media on induction of gynogenesis, and subsequent plantlet regeneration in vitro were assessed in interspecific Gossypium barbadense × G. hirsutum cotton hybrids. Gynogenesis occurred in all genotypes used when the pistils had been pre-treated with pollen from Hibiscus cannabinus and ovaries were harvested 5 or 10 days after anthesis. The use of culture media, SH and MS, showed no significant differences in responding ovules, embryogenic ovules or embryo germination frequency. Recovered progeny were characterized cytogenetically and microscopically to help documenting their reproductive basis. Root tip chromosome counts of 17 plants established from ovule culture revealed that chromosome numbers ranged from 27 to 44. Although the reproductive mechanisms need to be characterized more extensively by cytological and molecular means, the observations suggest that gynogenesis in cotton involves some unusual reproductive events. Aneuploids could be useful for functional genomic characterization of genome shock, deletion mapping, and germplasm introgression.     

Physiological and Biochemical Changes Associated with Cotton Fibre Development. IV. Glycosidases and {beta}-1,3-Glucanase Activities

Developing cotton fibre was analysed from 12 days post anthesis(DPA) till maturity for the activity of wall degrading enzymes,ß-galactosidase, ß-glucosidase, -mannosidaseand ß-1,3-glucanase. Each enzyme was estimated inthree different fractions namely cytoplasmic, ionically wall-boundand covalently wall-bound. There was a significant correlationbetween ß-galactosidase and ß-glucosidaseactivities in the covalently bound fraction, and the rate offibre elongation. Similarly, covalently bound ß-1,3-glucanaseactivity showed an increasing trend up to 18 DPA, i.e. aboutthe time when maximum rate of fibre elongation was achieved. The results presented here suggest that covalently wall-boundglycosidases may have an importafit role in cell wall loosening.Earlier reports providing evidence against the involvement ofthese enzymes in elongation growth in intact system, may perhapsbe due to scant attention paid to the subcellular distributionof these enzymes. Gossypium hirsutum, cotton fibre, glucanase, glycosidase, wall-loosening     

Seedlessness and Parthenocarpy inPistacia veraL. (Anacardiaceae): Temporal Changes in Patterns of Vascular Transport to Ovules

Pistacia vera‘Kerman’ (pistachio nut) typicallyproduces high numbers of seedless or blank fruits. Patternsof vascular transport into fruits and ovules were studied over3 years by following the movement of disodium fluorescein solutionfrom cut branches into developing fruitlets. Early in the season,vascular conductivity is intact through to the chalazal endof the ovule. Soon afterwards, the percentage of ovules withvascular conductivity through to the chalaza declines, and ina variable fraction of fruits, movement of the fluorochromesolution becomes blocked either at the placenta or in the funiculus.Six to 9 weeks after anthesis there is blockage in 90 (1 year)to 100% (2 years) of fruits. Subsequently, vascular conductivityresumes in 83.3% (3 year mean) of ovules, a percentage thatcorrelates well with the mean percentage of seeded nuts at harvest(77.5%). Ovules from fruits with dysfunctional vascular conductionearly in the season are smaller than those with fully functionalvascular tissue. At the time conductivity declines, a high percentageof those ovules with blocked vascular movement lack endospermand appear to be unfertilized; none of the ovules that retainfull vascular flow lack endosperm. Pollination using gamma-irradiatedpollen (⁶⁰Co, 1.0 kGy) led to a nearly three-fold increase inthe production of blank nuts. The results indicate that fluoresceintransport may be a valuable tool to predict the fate of ovules,and are consistent with the hypothesis that parthenocarpic fruitset may be an important factor in blank nut production in pistachio.Copyright1999 Annals of Botany Company Pistachio,Pistacia veraL., fluorescein, seed set, seedlessness, parthenocarpy, blanking, ovule, funiculus, chalaza, embryo.     

Laser capture microdissection and cDNA microarrays used to generate gene expression profiles of the rapidly expanding fibre initial cells on the surface of cotton ovules

Cotton (Gossypium hirsutum L.) fibre initial cells undergo a rapid cellular re-programming around anthesis to form the long cellulose fibres prized for textile manufacture. On the day of anthesis the cotton fibre initial cells balloon out from the ovule surface and so are clearly distinguished from adjacent epidermal pavement cells. To enhance our understanding of the molecular processes that determine which cells become fibres and why adjacent epidermal cells remain in a different developmental state we studied the expression profiles of the two respective cell types. Using laser-capture microdissection, coupled with an in vitro RNA amplification system, we used cDNA microarray slides to profile the gene expression in expanding fibre initials compared to the non-expanding epidermal cells at an early stage just after the fibre initials are discernable. Except for a few regulatory genes, the genes that are up-regulated in the cotton fibre initials relative to epidermal cells predominantly encode proteins involved in generating the components for the extra cell membrane and primary cell wall needed for the rapid cell expansion of the initials. This includes synthesis of enzymes and cell wall proteins, carbohydrates, and lipids. An analysis of single channel fluorescence levels confirmed that these classes of genes were also the most highly expressed genes in fibre initials. Genes involved in DNA metabolism were also well represented in the expanding fibre cell, consistent with the limited endoreduplication we previously reported to occur in fibre initial cells.     

Microscopic Study of Mature Seed Coats and Aborted Structures of Interspecific Cotton Hybrids

Seed coats and fibers of aborted structures (termed “motes”) and mature seeds from an interspecific hybrid (ISH) of cotton (Gossypium hirsutum x G. barbadense) were studied by microscopy to determine (a) the developmental stages at which motes of various sizes stop growing and (b) the origin of lint-contaminating fragments. Small motes (1–2 mm wide, up to 3 mm long) were identified as ovules whose growth had been arrested before anthesis or soon afterwards, medium-size motes (1–3 mm wide, 3–5 mm long) as those whose growth had been arrested up to 10 days post-anthesis, and large motes (3–5 mm wide, 5–8 mm long) as those which had stopped growing about 20 days post-anthesis. Microscopic examination of lint-contaminating fragments showed that they derive mainly from medium-size motes and partly from mature seed coats. Reducing the number of medium-size motes by breeding can, therefore, improve the lint quality of ISHs of cotton.     

Polysaccharide and glycoprotein distribution in the epidermis of cotton ovules during early fiber initiation and growth

The cotton fiber is a model system to study cell wall biosynthesis because the fiber cell elongates (∼3 cm in ∼20 days) without mitosis. In this study, developing cotton ovules, examined from 1 day before anthesis (DBA) to 2 days post-anthesis (DPA), that would be difficult to investigate via classical carbohydrate biochemistry were probed using a battery of antibodies that recognize a large number of different wall components. In addition, ovules from these same stages were investigated in three fiberless lines. Most antibodies reacted with at least some component of the ovule, and several of the antibodies reacted specifically with the epidermal layer of cells that may give clues as to the nature of the development of the fibers and the neighboring, nonfiber atrichoblasts. Arabinogalactan proteins (AGPs) labeled the epidermal layers more strongly than other ovular tissue, even at 1 DBA. One of the AGP antibodies, CCRC-M7, which recognizes a 1➔6 galactan epitope of AGPs, is lost from the fiber cells by 2 DPA, although labeling in the atrichoblasts remained strong. In contrast, LM5 that recognizes a 1➔4 galactan RGI side chain is unreactive with sections until the fibers are produced and only the fibers are reactive. Dramatic changes also occur in the homogalacturonans (HGs). JIM5, which recognizes highly de-esterified HGs, only weakly labels epidermal cells of 1 DBA and 0 DPA ovules, but labeling increases in fibers cells, where a pectinaceous sheath is produced around the fiber cell and stronger reaction in the internal and external walls of the atrichoblast. In contrast, JIM7-reactive, highly esterifed HGs are present at high levels in the epidermal cells throughout development. Fiberless lines displayed similar patterns of labeling to the fibered lines, except that all of the cells had the labeling pattern of atrichoblasts. That is, CCRC-M7 labeled all cells of the fiberless lines, and LM5 labeled no cells at 2 DPA. These data indicate that a number of polysaccharides are unique in quantity or presence in the epidermal cell layers, and some of these might be critical participants in the early stages of initiation and elongation of cotton fibers.     

花前渍水预处理对花后渍水逆境下扬麦9号籽粒产量和品质的影响

以扬麦9号为材料,研究花前渍水预处理对花后渍水逆境下小麦籽粒产量和品质的影响。结果表明,与未进行渍水预处理相比,花前渍水预处理提高了小麦植株对花后渍害的抗性,生物产量、收获指数和千粒重显著提高,进而显著提高了籽粒产量;花前渍水预处理显著提高花后氮素积累量及其对籽粒氮素的贡献率,降低了花前贮藏氮素运转量及其对籽粒氮素的贡献率,进而引起籽粒球蛋白含量提高,但显著降低了清蛋白、醇溶蛋白、谷蛋白和全蛋白质含量、以及干湿面筋含量和沉降值;花前渍水预处理还提高了籽粒直链淀粉和总淀粉含量和降落值,降低了支/直链淀粉比,显著提高了面粉峰值粘度、低谷粘度、崩解值、最终粘度、回冷值和峰值时间,但对糊化温度无显著影响。     

Calcium distribution in fertilized and unfertilized ovules and embryo sacs of Nicotiana tabacum L.

Potassium antimonate was used to localize Ca²⁺ in tobacco ovules from 0 to 7 d after anthesis in pollinated and emasculated flowers. Antimonate binds “loosely bound” Ca²⁺ into calcium antimonate; less-soluble forms are unavailable and free calcium usually escapes. Ovules are immature at anthesis. Abundant calcium precipitates in nucellar cells surrounding the micropylar canal. A difference between calcium in the two synergids emerges at 1 d, which is enhanced in pollinated flowers. The future receptive synergid accumulates more precipitates in the nucleus, cytoplasm and cell walls. After fertilization, micropyle precipitates diminish, and the ovule is unreceptive to further tube entry. In emasculated flowers 6 d after anthesis, ovular precipitates essentially disappear; however, flowers pollinated at 4–5 d and collected 2 d later largely restore their prior concentration of precipitates. Ovular precipitates occur initially in the nucellus, then the embryo sac, and finally the synergid and micropylar filiform apparatus. Possibility, calcium is released from the embryo sac, although no structural evidence of exudate formation was observed. Calcium precipitates in the ovule correlate with the ability of the ovule to be fertilized, suggesting that successful pollen tube entry and later development may require calcium of the class precipitated by antimonate. Received: 14 August 1996 / Accepted: 9 October 1996     

Expression of a phenylcoumaran benzylic ether reductase-like protein in the ovules of <Emphasis Type="Italic">Gossypium hirsutum</Emphasis>

Two dimensional polyacrylamide gel electrophoresis (2D-PAGE) was used to identify differentially expressed proteins in wild-type (DP 5690) and fiberless (SL 1-7-1) cotton ovules. One protein, designated V2 was unique to ovules of the fiber producing DP 5690 line. The protein was purified from 2D-PAGE of 4 d post anthesis DP 5690 ovules and partially sequenced. The short amino acid sequence was nearly identical to the deduced amino acid sequence for cotton phenylcoumaran benzylic ether reductase (PCBER) protein. A consensus sequence was assembled from ESTs encoding cotton PCBER genes, primers were designed, and a full length gene was amplified from plasmid DNA from a 72 h etiolated cotton cotyledon library. The polymerase chain reaction generated a 950 bp product with unique EcoRI (5′) and (3′) KpnI restriction sites for directional insertion into the expression vector pPICZA. Nucleotide sequencing was performed, and the full length coding region was 924 bp encoding a protein of 308 amino acids. The molecular mass and pI measured (2D PAGE) were similar to the theoretical protein.     

Carbon mobilization in shoot parts and roots of wheat during grain filling: assessment by 13C/12C steady-state labelling, growth analysis and balance sheets of reserves

cv, cultivar
δ, deviation of C isotope composition from a standard
Δ, C isotope discrimination
WSC, water soluble carbohydrates

Steady-state labelling of all post-anthesis photosynthate of wheat was performed to assess the mobilization of pre-anthesis C (C fixed prior to anthesis) in vegetative plant parts during grain filling. Results were compared with estimates obtained by indirect approaches to mobilization of pre-anthesis C: ‘classical’ growth analysis and balance sheets of water soluble carbohydrates (WSC) and protein. Experiments were performed with two spring wheat cultivars grown with differential nitrogen fertilizer supply in 1991 and 1992. The fraction of pre-anthesis C mobilized in above-ground vegetative biomass ranged between 24 and 34% of total C present at anthesis. Treatment effects on mobilization of pre-anthesis C in total above-ground vegetative biomass were closely related (r² = 0·89) to effects on mobilization of WSC-C plus protein-C (estimated as N mobilized × 3·15). On average, 81% of pre-anthesis C mobilization was attributable to the balance of pre-anthesis WSC (48%) and protein (33%) between anthesis and maturity. In roots, WSC and protein mobilization accounted for only 29% of the loss of pre-anthesis C. Notably, mobilization of pre-anthesis C was 1·4–2·6 times larger than the net loss of C from above-ground vegetative biomass between anthesis and maturity. This discrepancy was mainly due to post-anthesis C accumulation in glumes and stem. Post-anthesis C accumulation was related to continued synthesis of structural biomass after anthesis and accounted for a mean 15% of total C contained in above-ground vegetative plant parts at maturity. A close correspondence between net loss of C and mobilization of pre-anthesis C was only apparent in leaf blades and leaf sheaths. Although balance sheets of WSC and protein also underrated the mobilization of pre-anthesis C by ≈ 19%, they gave a much better estimate of pre-anthesis C mobilization than growth analysis.     

Effect of phytohormones on fiber initiation of cotton ovule

In order to study the effect of phytohormones on cotton fiber initiation, contents of four endogenous phytohormones and activities of four related enzymes in ovules (in vivo) of a fuzzless–lintless mutant (fl) and its wild-type (FL) line were measured from 4 days before anthesis (day −4) to 4 days after anthesis (day 4). The results showed that contents of indole-3-acetic acid, gibberellic acid (GA), and zeatin riboside in fl ovules were lower than those in FL ovules. Therefore, indole-3-acetic acid, GA, and zeatin riboside were thought to be the promoters of fiber initiation. Although abscisic acid (ABA) content in fl ovule was slightly higher than that in FL ovule on day 0, which might imply that ABA inhibited fiber initiation. Fiber initiation could also be influenced by enzyme through regulating synthesis and degradation of related phytohormones since fl ovules were significantly higher in activities of indole-3-acetic acid oxidase, cytokinin oxidase and peroxidase, but lower in activity of tryptophan synthetase than those in FL ovules. To test the above hypothesis, exogenous plant growth regulators were also applied for the culture of ovules from fl and FL in vitro. When no regulators were added, no fiber was induced on fl ovule, but a few fibers were induced in FL ovule. Higher total fiber units (TFU) were observed when indole-3-acetic acid and gibberellic acid (GA₃) were applied either separately or in combination to media. TFU did not increased with zeatin riboside alone, but the highest TFU was achieved when zeatin riboside was applied together with indole-3 acetic acid and GA₃, which implied that fiber initiation could be promoted by them as additive.     

Characterization of cell-wall polymers from cotton ovule culture fiber cells by gel permeation chromatography

Summary Cotton (Gossypium hirsutum, Texas Marker-1) fiber cells originating from ovule culture have been analyzed by gel permeation chromatography of dimethyl acetamide/lithium chloride-soluble components and compared within planta-grown fibers. The profile of cell-wall polymer molecular weights indicated that fibers grown for 21 d in culture more closely resembled fibers growingin planta for 30 d post-anthesis than fully mature fibers. The weight average molecular weight was 3 400 000 and number average molecular weight of polymers from ovule culture fibers was 109 000. Analysis of the polymer weight fraction distribution revealed that ovule culture fibers were similar to 30 d post-anthesis immature fibers but lacked a low molecular weight (log M 3–4) polymer fraction. Assessment of the polymer branching frequency showed that ovule culture fibers were intermediate in branching between 30 d post-anthesis fiber and maturein planta fiber. In summary, polymers deposited in cell walls of ovule culture fibers appear to grossly mimic the polymers accumulated during normal fiber biogenesisin planta, yet subtle differences may explain why ovule culture fibers rarely reach their full genetic potential in length.