The involvement of indole acetic acid in the thermodormancy of lettuce fruits,Lactuca sativa cv. Grand Rapids

Summary At 20° C and at 30° C in darkness, concentrations of indole acetic acid (IAA) greater than 10^–7 M inhibited the germination of Grand Rapids lettuce at 24 h and 48 h after the beginning of imbibition. There was no marked, readily defined period of inhibition during germination that could be associated solely with an effect of IAA on suppressing radicle extension. Gibberellin A₄₊₇, benzyladenine and red light were capable of reversing the effects of IAA. There was no consistent pattern of change in the low endogenous levels (less than 11 g kg^–1) of extractable IAA during the first 30 h after imbibition.Abbreviations BA Benzyladenine - BSA N, bis(trimethylsilyl)-acetamide - DEAE Diethylaminoethyl - GA₄₊₇ Gibberellins A₄ and A₇ - GC-MS Combined gas liquid chromatography-mass spectrometry - GLC Gas liquid chromatography - IAA Indole acetic acid - TLC Thin layer chromatography     

Ribonucleic acid synthesis and loss of viability in pea seed

Summary RNA synthesis and protein synthesis in embryonic axis tissue of viable pea (Pisum arvense L. var. N.Z. maple) seed commences during the first hour of germination. Protein synthesis in axis tissue of non-viable pea seed is barely detectable during the first 24 h after the start of imbibition. Nonviable axis tissue incorporates significant levels of [³H]uridine into RNA during this period but the level of incorporation does not increase significantly over the first 24 h of imbibition. In axis tissue of non-viable seed during the first hour of imbibition most of the [³H]uridine was incorporated into low molecular weight material migrating in advance of the 4S and 5S RNA species in polyacrylamide gels but some radioactivity was incorporated into a discrete species of RNA having a molecular weight of 2.7×10⁶. After 24 h, non-viable axis tissue incorporates [³H]uridine into ribosomal RNA, the low molecular weight material migrating in advance of the 4S and 5S RNA peak in polyacrylamide gels and a heterogeneous RNA species of molecular weight ranging from 2.2×10⁶ to 2.7×10⁶. No 4S or 5S RNA synthesis is detectable after 24 h of imbibition in non-viable axis tissue. Axis tissue of viable pea seed synthesises rRNA, 4S and 5S RNA, the low molecular weight material migrating in advance of the 4S and 5S RNA peak in polyacrylamide gels and the rRNA precursor species at both periods of germination studied. Loss of viability in pea seed appears to be accompanied by the appearance of lesions in the processing of rRNA precursor species and a significant loss of RNA synthesising activity.Abbreviations rRNA ribosomal RNA - TCA trichloroacetic acid - SLS sodium lauryl sulphate - PPO 2,5 Diphenyloxazole - POPOP 1,4-Bis-2-(4-methyl-5-penyloxazolyl)-benzene     

Actin expression in germinating seeds of Phaseolus vulgaris L.

Actin was present at very low levels in the seeds of common bean (Phaseolus vulgaris L.) compared with those from other species, and was observed mostly in the embryo. A time-course of actin expression in germinating bean seeds revealed an induced expression of both the mRNA and protein. Initially, the actin mRNA in seeds was barely detectable by northern blot analysis. However, there was a substantial increase in the expression of the actin mRNA at 24, 48 and 72 h after imbibition, compared with an internal control consisting of a late-embryogenesis-abundant (LEA) type IV gene from P. vulgaris. An increase in the amount of actin in total seed extracts that parallelled that of the mRNA was detected by western blotting starting at 24 h after imbibition. This increase was more apparent when the embryo alone was analyzed. Two-dimensional western blots initially revealed three actin isoforms with isoelectric points (pIs) of approximately 5.6, 5.7 and 5.8, the amounts of which increased within a 48-h period, when a new minor isoform of pI approximately 5.5 appeared; however, after 72 h, the pI-5.8 isoform had almost disappeared and the pI-5.5 isoform had disappeared completely, indicating that these two minor isoforms are expressed transiently. These results indicate that actin is at very low levels in the dry seed but undergoes an increased and differential expression during imbibition, an event probably required to carry out all the necessary functions for germination. Received: 21 July 1998 / Accepted: 1 September 1998     

Actin expression is induced and three isoforms are differentially expressed during germination in Zea mays

Previous analysis of actin in a dicotyledonous plant, Phaseolus vulgaris (or common bean), showed very low actin levels in cotyledons but they were concentrated in the embryo axis. Upon imbibition, actin expression increased 5-fold and a maximum of four actin isoforms were observed, two of them transient and two major ones were steadily expressed. In this work, analysis of the actin expression in a monocotyledonous plant, Zea mays (or maize), and over a longer period of germination/growth, showed that striking similarities exist. Actin is present in all the seed components, but it is mainly concentrated in the embryo axis. The expression of maize actin was induced during post-imbibition at both the protein and mRNA levels. Sharp increases in actin appeared from 24-48 h and again from 72-96 h. A more modest and steady actin mRNA increase in expression was observed; however, it did not appear as dramatic as in the case of common bean due to the presence of readily detectable amounts of message in the dry maize seed. The isoform distribution in the dry seed showed a pattern of at least three isovariants of pIs approximately 5.0, 5.1, and 5.2, which were differentially expressed at the various post-imbibition times analysed. Two of the actin isoforms at 48 h post-imbibition cross-reacted with a phosphotyrosine-specific antibody and they are the product of three expressed genes as shown by in vitro translation assays. These data indicate that maize actin protein and mRNA expression is induced upon the trigger of germination, and the isoform expression kinetics and patterns resemble those from bean, suggesting that, in both species, actin expression at these early germination/growth stages is a highly regulated event.     

Heat Shock Proteins and Their mRNAs in Dry and Early Imbibing Embryos of Wheat

Two-dimensional gels of in vitro translation products of mRNAs isolated from quiescent wheat (Triticum aestivum) embryos demonstrate the presence of mRNAs encoding heat shock proteins (hsps). There were no detectable differences in the mRNAs found in mature embryos from field grown, from 25°C growth chamber cultivated, or from plants given 38°C heat stresses at different stages of seed development. The mRNAs encoding several developmentally dependent (dd) hsps were among those found in the dry embryos. Stained two-dimensional gels of proteins extracted from 25°C growth chamber cultivated wheat embryos demonstrated the presence of hsps, including dd hsps. A study of the relationship of preexisting hsp mRNAs and the heat shock response during early imbibition was undertaken. Heat shocks (42°C, 90 minutes) were administered following 1.5, 16, and 24 hours of 25°C imbibition. While the mRNAs encoding the low molecular weight hsps decayed rapidly upon imbibition, the mRNAs for dd hsps persisted longer and were still detectable following 16 hours of imbibition. After 1.5 hours of imbibition, the mRNAs for the dd hsps did not accumulate in response to heat shock, even though the synthesis of the proteins was enhanced. Thus, an applied heat shock appeared to lead to the preferential translation of preexisting dd hsp mRNAs. The mRNAs for the other hsps, except hsp 70, were newly transcribed at all of the imbibition times examined. The behavior of the hsp 70 group of proteins during early imbibition was examined by RNA gel blot analysis. The mRNAs for the hsp 70 group were detectable at moderate levels in the quiescent embryo. The relative level of hsp 70 mRNA increased after the onset of imbibition at 25°C and remained high through 25.5 hours of prior imbibition. The maximal levels of these mRNAs at 25°C was reached at 17.5 hours of imbibition. Heat shock caused modest additional accumulation of hsp70 mRNA at later imbibition times.     

Differential Proteolysis of Glycinin and beta-Conglycinin Polypeptides during Soybean Germination and Seedling Growth

The degradation of the major seed storage globulins of the soybean (Glycine max [L.] Merrill) was examined during the first 12 days of germination and seedling growth. The appearance of glycinin and β-conglycinin degradation products was detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of cotyledon extracts followed by electroblotting to nitrocellulose and immunostaining using glycinin and β-conglycinin specific antibodies. The three subunits of β-conglycinin were preferentially metabolized. Of the three subunits of β-conglycinin, the larger α and α′ subunits are rapidly degraded, generating new β-conglycinin cross-reactive polypeptides of 51,200 molecular weight soon after imbibition of the seed. After 6 days of growth the β-subunit is also hydrolyzed. At least six polypeptides, ranging from 33,100 to 24,000 molecular weight, appear as apparent degradation products of β-conglycinin. The metabolism of the glycinin acidic chains begins early in growth. The glycinin acidic chains present at day 3 have already been altered from the native form in the ungerminated seed, as evidenced by their higher mobility in an alkaline-urea polyacrylamide gel electrophoresis system. However, no change in the molecular weight of these chains is detectable by sodium dodecyl sulfate-polyarylamide gel electrophoresis. Examination of the glycinin polypeptide amino-termini by dansylation suggests that this initial modification of the acidic chains involves limited proteolysis at the carboxyl-termini, deamidation, or both. After 3 days of growth the acidic chains are rapidly hydrolyzed to a smaller (21,900 molecular weight) form. The basic polypeptides of glycinin appear to be unaltered during the first 8 days of growth, but are rapidly degraded thereafter to unidentified products. All of the original glycinin basic chains have been destroyed by day 10 of growth.     

Isolation and identification of proteins from the peptide-transport carrier in the scutellum of germinating barley (Hordeum vulgare L.) embryos

Peptide-transport proteins, intrinsic to the epithelial plasmalemmae of the scutella of germinating barley (Hordeum vulgare L.) embryos, have been selectively labelled with p-chloro-[²⁰³Hg]mercuribenzenesulphonate using both a substrate-screening technique and a procedure developed to label exclusively vicinal dithiol groups, which were shown previously (Walker-Smith and Payne, 1983, FEBS Lett. 160, 25–30) to be essential components of the peptide-transport system. After radioactive labelling, proteins from the scutellar membranes have been solubilised with lithium diiodosalicylate plus sodium dodecyl sulphate and separated by using polyacrylamide gel electrophoresis. Fluorography and silver staining of these gels has for the first time allowed identification of two presumptive components of the peptide-transport system. These components only become detectable in an extract of the scutellar epithelia after 15 h imbibition, concomitant with a dramatic increase in peptide-transport activity, and they remain present at least 3 d after the onset of germination. [³⁵] Methionine was shown to be incorporated into these proteins between 15–20 h after imbibition, but its incorporation during a similar 5 h period into scutella isolated after 3 d was undetectable, implying a slow turnover of these proteins during the later stages of germination.Abbreviations Ala₂, Ala₃ dialanine, trialanine - CHAPS 3-((3-cholamidopropyl) dimethylammonio)-1-propanesulphonate - p-CMBS p-chloromercuribenzenesulphonic acid - NEM N-ethylmaleimide - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol     

In vitro protein synthesis during germination and vernalization in winter wheat embryos

Protein synthesis during germination at 24?C and vernalizationat 4?C in winter wheat embryos were investigated with a cell-freesystem. During germination, the capacity for protein synthesisincreased in the early stage between 12 and 36 hr of imbibitionthen declined to a final low level between 48 and 72 hr. Thistransition was due to quantitative changes of the activitiesof ribosomal and supernatant fractions in the early stage andmainly to those of the supernatant fraction in the later stage.During vernalization, the capacity for protein synthesis continuedto decline over 15 to 60 days at 4?C. This transition was dueto the change in activity of the supernatant fraction; the activityof the ribosomal fraction was nearly constant. Electrophoretic analysis of in vitro products indicated thatthe high molecular weight proteins present in 12-hr embryoshad disappeared in 48-hr germinated wheat embryos and that theproducts in 24- and 36-hr embryos were types intermediate betweenthose of 12- and 48-hr embryos. The products in each vernalizedembryo resembled those in 24- and 36-hr germinated embryos.Therefore, it was concluded that the mRNA species for translationchanged during germination and vernalization in winter wheatembryos. (Received January 20, 1977; )     

Degradation of chloroplast DNA in second leaves of rice (Oryza sativa) before leaf yellowing

Summary The second leaf ofOryza sativa develops, grows and ages within the 10 days that follow imbibition under our controlled continuous-light conditions. Proplastids in the leaf cells develop, mature to become chloroplasts and then age and disintegrate. In an examination of this life process, we studied first the behavior and the number of copies of plastid DNA and levels of chlorophyll by epifluorescence microscopy after staining with 4,6-diamidino-2-phenylindole (DAPI), and by fluorimetry with a video-intensified microscope photon-counting system (VIMPCS). The results indicated that the number of copies of the plastid DNA per plastid increased and reached to plateau value of approximately 100 at the time when the elongation of the mesophyll cells and the enlargement of chloroplasts ceased 96 h after imbibition. However, 24 h later, the number of copies of plastid DNA per chloroplast began to decrease and fell rapidly to approximately 30 copies within 168 h after imbibition. Our examination of the number of chloroplasts per mesophyll cell indicated that no division of chloroplasts occurred more than 72 h after imbibition. The results suggest that the decrease in number of copies of plastid DNA per chloroplast was not due to an increase in the number of chloroplasts, but that this decrease was caused by degradation by unidentified enzymes. Since visible senescence of leaves, which was characterized by development of a yellowish color, began 168 h after imbibition, the degradation of plastid DNA seemed to occur 48 h before the visible leaf senescence. When we tested the nucleolytic activities in the second leaves after imbibition by digestion of plasmids in vitro and DNA-SDS polyacrylamide gel electrophoresis, five Ca²⁺–, four Zn²⁺–, and four Mn²⁺–dependent nucleases were detected in the leaf blades, and one of the Ca²⁺–, two of the Zn²⁺–, and two of the Mn²⁺–dependent nucleases were also identified in a purified preparation of intact chloroplasts. When the activity of the Zn²⁺–dependent nucleases (51 kDa and 13 kDa) increased markedly, degradation of the plastid DNA occurred. These results suggest that the destruction of chloroplast DNA, which occurs approximately 48 h before leaf yellowing, could be due to the activation of some metallo-nucleases and, furthermore, this enzymatic degradation propels the leaf towards senescence.     

Effect of water restriction on total phenolics and antioxidant properties of Amburana cearensis (Fr. Allem) A.C. Smith cotyledons during seed imbibition

Amburana cearensis (Fr. Allem) AC Smith is a native Caatinga species commonly found in the semiarid region of North East of Brazil, which possesses resistance to temperature and drought stress and is widely used in the folk medicine. This study aimed at a better understanding of seed imbibition and germination as well as to evaluate the effect of water restriction on total phenolics and antioxidant properties in cotyledons of A. cearensis (Fr. Allem) A.C. Smith. Seeds were imbibed in water (control) or PEG 8000 solution (?1.2 and ?1.4 MPa). Germinability was evaluated up to 180 h of seed imbibition, whereas cotyledons were collected at 0, 24, 48, 72 and 96 h of imbibition. The radical scavenging ability was enhanced in response to the water restriction after 96 h of imbibition as compared to the control. Water restriction affected water uptake and seed germinability while inducing a faster response in terms of biosynthesis of phenolic compounds, although total phenolic content decreased as compared to control. There is a high correlation between total phenolics and antioxidant activity for the seeds subjected to the water restriction conditions. These findings provide insights into the mechanisms underlying plant adaptation to harsh environmental conditions during germination, which would be very helpful to develop germination and seedling production protocols aimed at strategies for the sustainable exploitation of A. cearensis by local folk communities under the typical harsh conditions of the Brazilian Caatinga and semiarid regions.     

Cotyledonary mRNA Species and Germinability of Immature Vigna unguiculata Seeds

We have defined four stages in the development of cowpea seeds:I(9–11 days after flowering), II (13–15), HI (17–19)and IV (22–24). Poly A⁺ RNA fractions were prepared fromcotyledons of developing (stages I–IV) and germinating(0, 12, 24 and 48 h after imbibition) seeds. Poly A⁺ RNAs fromstages I–III exhibited high translation activities witha maximum at stage II, and the activity was markedly reducedat stage IV. In cotyledons of germinating seeds, the translationactivity was low until 12 h after the onset of imbibition butrose thereafter. Analysis of in vitro translation products withSDS-polyacrylamide gel electrophoresis and fluorography showedthat the abundant mRNA population underwent a distinct changebetween stages II and III of seed development. Since the mRNApopulation at stage III was very similar to that of stage IV(mature seeds), it appears that, as far as mRNA species areconcerned, the prerequisites for germination are fully availablein the developing seeds by stage III. This assumption was supportedby the fact that immature seeds at stage III exhibited highgermination rates and normal axial growth and produced -amylaseat levels similar to those produced by mature seeds. Severalpolypeptides which have been regarded as translation productsof stored mRNA (poly A⁺ RNA from dry seeds) were detected atearlier stages of germination. (Received September 29, 1988; Accepted January 25, 1989)     

The Effect of Interval Hypoxic Hypoxia on the Vascular Endothelial Growth Factor and Basic Fibroblast Growth Factor Concentrations in the Peripheral Blood

We studied the effect of a 14-day course of interval hypoxic hypoxia (IHH) on the concentration in the blood of healthy subjects of the vascular endothelial growth factor (vEGF) and the basic fibroblast growth factor (bFGF), which regulate endothelial cell proliferation and angiogenesis. The IHH course was carried out using a BIO-NOVA 204 plant for modeling hypoxic conditions. IHH resulted in a twofold increase in vEGF 24 h after its application; this was followed by a decrease in vEGF to the initial level 48 h after IHH, a subsequent increase by 40% 72 h after IHH, and normalization to the initial level by day 14. The concentration of bFGF increased by 21% 24 h after IHH and gradually decreased to the initial level by day 14. During the initial 24–72 h, changes in the concentration of both factors positively correlated with the dynamics of oxidative stress markers, such as total prooxidative activity and plasma concentration of thiobarbituric acid–reactive species. It is assumed that IHH increases the vEGF content owing to induction of its biosynthesis by reactive oxygen species. Therefore, it is promising to examine the effect of IHH on the morphofunctional parameters of endothelium.     

Ultrastructural and biochemical investigations of protein mobilization of Mucuna pruriens (L.) DC. cotyledons and embryo axis

The mobilization of storage reserves, with particular emphasis on storage proteins of Mucuna pruriens (L.) DC., cotyledons, and embryo was investigated from the ultrastructural and biochemical points of view. Proteins and starch were the two main storage substances in cotyledons, and proteins and lipids were the main ones in the embryo. Embryo protein bodies were smaller and fewer in number than those of cotyledons. Structural and ultrastructural data determined between 24 and 48 h after imbibition and between 48 and 72 h after imbibition, the end of significant embryo and cotyledon protein mobilization, respectively, indicating more precocious storage protein mobilization in the axis than cotyledons. Moreover, storage protein mobilization in embryo and cotyledons occurred before the end of germination. Water soluble proteins were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis, producing 29 bands with molecular weights from 14 to 90 KDa. Embryo extract contained more proteins than cotyledon extract, contained seven characteristic bands, and showed a higher variability of the optical density trend than cotyledon.     

beta]-Tubulin Accumulation and DNA Replication in Imbibing Tomato Seeds

The activation of the cell cycle in embryo root tips of imbibing tomato (Lycopersicon esculentum Mill. cv Lerica) seeds was studied by flow cytometric analyses of the nuclear DNA content and by immunodelection of [beta]-tubulin. With dry seeds, flow cytometric profiles indicated that the majority of the cells were arrested at the G1 phase of the cell cycle. In addition, [beta]-tubulin was not detectable on western blots. Upon imbibition of water, the number of cells in G2 started to increase after 24 h, and a 55-kD [beta]-tubulin signal was detected between 24 and 48 h. Two-dimensional immunoblots revealed at least three different [beta]-tubulin isotypes. Thus, [beta]-tubulin accumulation and DNA replication were induced during osmotic priming. These processes, as well as seed germination rate, were enhanced upon subsequent imbibition of water, compared with control seeds that imbibed but were not primed. By contrast, when aged seeds imbibed, DNA replication, [beta]-tubulin accumulation, and germination were delayed. In all cases studied, both DNA replication and [beta]-tubulin accumulation preceded visible germination. We suggest that activation of these cell-cycle-related processes is a prerequisite for tomato seed germination. Furthermore, [beta]-tubulin expression can be used as a parameter for following the initial processes that are activated during seed imbibition.     

Applying variations of the Ovsynch protocol at the middle of the estrus cycle on reproductive performance of lactating dairy cows during summer and winter

Two modifications of the Ovsynch protocol, GnRH + TAI after PGF_2α 48 h (CO-48) or 72 h (CO-72), were compared with the original protocol (OVS: GnRH–7 d–PGF_2α–2 d–GnRH–16 h–TAI) to study their effects on reproductive performance in 785 lactating dairy cows (Holstein Friesian, Bos Taurus). Results showed that more cows (P < 0.001) returned to estrus within a week after TAI with CO-48 treatment compared with that in OVS and CO-72 treatments. Pregnancy rates were greater (P < 0.001) for the CO-72 cows than those for both OVS and CO-48 treatments and for primiparous cows compared with multiparous cows. Moreover, pregnancy rates were lower in summer compared with those in winter. Pregnancy losses for cows in both CO-48 and CO-72 were greater (P < 0.05) than that for cows in OVS treatment. Pregnancy losses were greater in summer (P < 0.001) than in winter and for multiparous cows (P < 0.001) than for primiparous cows. In conclusion, primiparous and winter-bred cows had greater pregnancy rates and fewer pregnancy losses than those of multiparous cows and summer-bred cows, respectively. Because of the presence of significant treatment, parity, and season interactions, TAI with ovulation synchronization protocols should be tailored according to the season and parity. CO-72 is recommended for primiparous cows but not for multiparous cows, and CO-48 is not recommended for synchronization. Furthermore, cows that exhibited estrus at any time were inseminated to improve pregnancy rates in ovulation synchronization protocols.     

Temporal and spatial pattern of the biochemical activation of the endosperm during and following imbibition of tomato seeds

Electron microscopic observations of the endosperm of tomato ( Lycopersicon esculentum Mill.) seeds revealed that changes in the cell wall structures along with the vacuolation of protein bodies occurred in the micropylar portion of the endosperm prior to germination. No changes were detected at that time in the rest of the endosperm. Endo‐β‐mannanase activity was restricted to the micropylar region of the endosperm prior to germination. Cell wall digestion by this pregerminative mannanase seemed to be associated with the changes in cell wall structures occurring in the micropylar region prior to germination. The protein content in the micropylar part of the endosperm began to decrease shortly after imbibition and attained about 40% of the initial level by the time of radicle protrusion (38 h after imbibition). On the other hand, only slight changes in the content were detected in the lateral endosperm during the same time; the protein content in the lateral endosperm decreased only after germination started. In conformity with the results on protein contents, proteolytic activity began to develop first in the micropylar portion prior to germination, and then in the lateral portion after germination. Thus, the timing of the biochemical activation of the endosperm after imbibition differed between the micropylar and the lateral region. Some qualitative differences in patterns of polypeptides synthesized in vivo were detected, as analyzed by pulse‐labeling and fluorography, between the micropylar and the lateral portions of the endosperm of seeds imbibed for 25 h. This suggests that processes of the biochemical activation of the endosperm may be qualitatively, as well as quantitatively, different depending on the regions of the endosperm.     

Differences in the activity and distribution of peroxidases from three different portions of germinating Brassica oleracea seeds

Peroxidase (POD, EC 1.11.1.7) activity, cellular localization and isozyme patterns were investigated in the seed integument, cotyledon and embryo axis of Brassica oleracea cv. Cappuccio during pregermination and seedling growth. Seeds started to germinate after 24 h of imbibition. POD activity was localized in the pigmented layer of the integument and in procambial strands of the cotyledon and embryo axis in the first 24 h of imbibition. It was localized in the integumental cells of palisade, pigmented and aleurone layers and in epidermal, meristematic, procambial cells and xylem elements of the root and hypocotyl after 48 h of imbibition. POD activity increased during germination and early seedling growth: in the integument, it reached a maximum value after 72 h of imbibition, in the embryo axis and cotyledons, it increased up to 144 h of imbibition. The increase in peroxidase activity was accompanied by the appearance of new isozymes correlated with the development of seedling tissues. The isozyme profile was characterized by nine peroxidases: isoperoxidase of 50 kDa peculiar to integuments, that of 150 kDa to cotyledons and that of 82 kDa to the embryo axis. During pregerminative phase isozymes of 84 kDa were detected in the integument and cotyledons, of 48.5 kDa in the embryo axis. After germination, peroxidase activity and the complexity of the isozyme pattern increased, suggesting that they play a relevant role after rupture of the integument.     

Gene Expression Profile Changes in Germinating Rice

Water absorption is a prerequisite for seed germination. During imbibition, water influx causes the resumption of many physiological and metabolic processes in growing seed. In order to obtain more complete knowledge about the mechanism of seed germination, two‐dimensional gel electrophoresis was applied to investigate the protein profile changes of rice seed during the first 48 h of imbibition. Thirty‐nine differentially expressed proteins were identified, including 19 down‐regulated and 20 up‐regulated proteins. Storage proteins and some seed development‐ and desiccation‐associated proteins were down regulated. The changed patterns of these proteins indicated extensive mobilization of seed reserves. By contrast, catabolism‐associated proteins were up regulated upon imbibition. Semi‐quantitative real time polymerase chain reaction analysis showed that most of the genes encoding the down‐ or up‐regulated proteins were also down or up regulated at mRNA level. The expression of these genes was largely consistent at mRNA and protein levels. In providing additional information concerning gene regulation in early plant life, this study will facilitate understanding of the molecular mechanisms of seed germination.