花后高温对持绿型小麦叶片衰老及籽粒淀粉合成相关酶的影响

试验选用持绿型冬小麦(Triticum aestivum) ‘豫麦66’ (‘Ym66’)和‘潍麦8号’ (‘Wm8’)为研究材料, 以当地生产上起主导作用的冬小麦品种‘小偃22’ (‘XY22’)和‘小偃6号’ (‘XY6’)为对照。花后用塑料薄膜搭建成增温棚进行高温处理, 测定各品种绿叶数目、叶绿素和丙二醛(MDA)含量及叶片细胞膜透性, 并研究籽粒灌浆成熟期高温对持绿型小麦籽粒淀粉合成相关酶及粒重的影响。结果表明, 高温处理后, 各品种的绿叶数目和叶绿素含量都减少, MDA含量和膜透性都增加, 说明高温加速了小麦叶片衰老。同时, 各品种籽粒中与淀粉合成相关的酶(蔗糖合成酶(SS)和腺苷二磷酸葡萄糖焦磷酸化酶(AGPP)、可溶性淀粉合酶(SSS))活性都低于正常生长下的籽粒中的酶活性, 其中高温对籽粒SS和AGPP活性的影响不显著,而对籽粒SSS活性的影响显著(p = 0.015)。品种间比较, 持绿型小麦在两种处理下, 都表现出较多的绿叶数目和较高的叶绿素含量; 且3种与淀粉合成相关的酶活性也都高于非持绿型小麦, 说明持绿型小麦酶活性受高温抑制程度较小。相关性分析表明, 所有品种籽粒SS、AGPP、SSS活性都与籽粒灌浆速率成极显著的正相关(相关系数r分别为0.905、0.419和0.801)。因而, 持绿型小麦不仅具有较好的持绿特性, 而且籽粒中与淀粉合成相关的3种酶活性都较高, 这有利于其籽粒淀粉的合成, 从而增加籽粒产量。     

Increased Antioxidant Activity under Elevated Temperatures: A Mechanism of Heat Stress Tolerance in Wheat Genotypes

An experiment was conducted with three wheat (Triticum aestivum L.) genotypes C 306, HD 2285 and HD 2329 (differently susceptible to water and temperature stress) to study the extent of oxidative injury and activities of antioxidant enzymes in relation to heat stress induced by manipulating dates of sowing. Increase in temperature by late sowing significantly decreased leaf relative water content (RWC), ascorbic acid content, and increased H₂O₂ content and lipid peroxidation in all the genotypes at 8 and 23 d after anthesis. Temperature tolerant genotypes C 306, closely followed by HD 2285 were superior to HD 2329 in maintaining high RWC, ascorbic acid content, and lower H₂O₂ content and lipid peroxidation (malondialdehyde content) under high temperature (late sowing) at the two stages. Activities of superoxide dismutase and catalase were highest in HD 2285 followed by C 306 and minimum in HD 2329 while ascorbate peroxidase activity was highest in C 306.     

Selection and evaluation ofAzospirillum brasilense strains growing at a sub-optimum temperature in rhizocoenosis with wheat

FourteenAzospirillum brasilense strains growing at a sub-optimum temperature were selected based on their ability to grow and carry out plant growth promoting activities at 22°C. The strains were tested for their response to inoculation in wheat (two popular cultivars, HD2285 and WH547, under sterile conditions) crop using sterile and nonsterile rooting medium. Significant increase in plant growth parameters was observed: the overall response to inoculation was better in cultivar HD 2285. Based on their performance under sterile conditions, 4 strains were selected and compared under nonsterile conditions with strain sensitive to a sub-optimum temperature in pots using wheat variety HD2285. The strains capable of growing at the sub-optimum temperature can colonize the wheat endorhizosphere efficiently and improve the plant growth and yield as compared to sensitive strain; a 25–27% increase in grain yield was found on inoculating two selected strains compared to NO ₃ ^- control.     

Effect of different temperature on starch synthase activity in excised grains of wheat cultivars

Excised grains of wheat (Triticum aestivum) varieties HD 2285 (relatively tolerant) and HD 2329 (susceptible type) were incubated for 1 hr at 15 degrees, 25 degrees, 35 degrees and 45 degrees C. In an another treatment, excised grains were incubated for 1 hr at increasing temperature (15 degrees, 25 degrees, 35 degrees and 45 degrees C) continuously, thus exposing the grains to gradual rise in temperature. The above treated grains were then analysed for the activity of soluble starch synthase (SSS) and granule bound starch synthase (GBSS) assayed at 20 degrees C. SSS activity decreased as the pre-exposure temperature was higher, though the tolerant variety showed lesser decrease. Decrease in SSS activity was lesser when excised grains were exposed to gradual rise in temperature from 15 degrees to 45 degrees C as compared to direct exposure to 45 degrees C. Pre-exposure of excised grains to different temperatures however, had no significant effect on GBSS activity.     

Activities of key enzymes for starch synthesis in relation to growth of superior and inferior grains on winter wheat (Triticum aestivum L.) spike

Weight of individual grains is a major yield component in wheat. The non-uniform distribution of single grain weight on a wheat spike is assumed to be closely associated with starch synthesis in grains. The present study was undertaken to determine if the enzymes involved in starch synthesis cause the differences in single grain weight between superior and inferior grains on a wheat spike. Using two high-yield winter wheat (Triticum aestivum L.) varieties differing in grain weight and three nitrogen rates for one variety, the contents of amylose and amylopectin, and activities of enzymes involved in starch synthesis in both superior and inferior grains were investigated during the entire period of grain filling. Superior grains showed generally higher starch accumulation rates and activities of enzymes including SS (sucrose synthase), UDPGPPase (UDP-glucose pyrophosphorylase), ADPGPPase (ADP-glucose pyrophosphorylase), SSS (soluble starch synthase) and GBSS (starch granule bound starch synthase) and subsequently produced much higher single grain weight than inferior grains. Nitrogen increased enzyme activities and starch accumulation rates, and thus improved individual grain weight, especially for inferior grains. The SS, ADPGPPase and SSS were significantly correlated to amylopectin accumulation, while SS, ADPGPPase, SSS and GBSS were significantly correlated to amylose accumulation. This infers that SS, ADPGPPase and starch synthase play key roles in regulating starch accumulation and grain weight in superior and inferior grains on a wheat spike.     

不同类型土壤上种植的小麦籽粒中与淀粉合成相关的酶活性变化

测定池栽条件下灰潮土、水稻土、砂姜黑土上种植的强筋小麦‘郑麦9023’籽粒灌浆过程中腺苷二磷酸葡萄糖焦磷酸化酶（AGPP）、尿苷二磷酸葡萄糖焦磷酸化酶（UGPP）、可溶性淀粉合成酶（SSS）、淀粉粒结合淀粉合成酶（GBSS）、淀粉分支酶（SBE）5个与淀粉合成有关的酶活性变化的结果表明,不同类型土壤上种植的小麦籽粒中AGPP、UGPP、SSS、GBSS、SBE活性均呈单峰曲线变化,花后18d,AGPP、UGPP、SSS和SBE活性达到峰值,而GBSS则在花后24d达到峰值。AGPP、SSS、SBE活性峰值表现为灰潮土〉水稻土〉砂姜黑土,UGPP峰值表现为灰潮土〉砂姜黑土〉水稻土,GBSS峰值则表现为水稻土〉灰潮土〉砂姜黑土。     

Short-term effects of experimental warming and enhanced ultraviolet-B radiation on photosynthesis and antioxidant defense of <Emphasis Type="Italic">Picea asperata</Emphasis> seedlings

It is generally accepted that sucrose synthase (SuSy), ADP-glucose pyrophosphorylase (AGPase), soluble starch synthase (SSS), granule-bound starch synthases (GBSS) and starch branching enzyme (SBE) play a key role in starch synthesis in wheat grains. Starch synthesis in wheat grains is influenced by genotype and environment. However, what is not known is the degree of variation in enzyme activity during starch accumulation of wheat cultivars differing in kernel types. The present study was carried out to characterize the changing activities of key enzymes during grain filling in two kernel type winter wheat cultivars. Results showed that starch accumulation rate (SAR) and activities of SuSy, AGPase, SSS, GBSS and SBE in large kernel types were significantly higher than those in small kernel types. The soil water deficit experienced during the course of the experiment led to an increase at early grain-filling period and decrease during late grain-filling, respectively, in SAR and activities of key enzymes involved in starch synthesis, especially SuSy, AGPase, SSS, and SBE. Water deficit enhanced grain starch accumulation in small kernel types. It suggests that rainfed treatment increase physiological activities during early grain-filling and promote starch accumulation in small kernel types. The simulation with Richards’ equation showed that it was accumulation duration and SAR that determined the starch accumulation in large kernel types. Compared with small kernel types, plants of large kernel types maintained longer filling duration, higher SAR and greater activities of related enzymes during mid and late grain-filling. These observations suggest stronger sink activities in large kernel types at a later stage of development. Consequently, large kernel types have advantages over the small kernel types in terms of the amount of starch accumulation at mid and late stage, but are sensitive to water deficit.     

The purification and characterisation of the two forms of soluble starch synthase from developing pea embryos

Soluble starch synthase was purified 10000-fold from developing embryos of pea (Pisum sativum L.). The activity was resolved into two forms which together account for most if not all of the soluble starchsynthase activity in the embryo. The two isoforms differ in their molecular weights but are similar in many other respects. Their kinetic properties are similar, neither isoform is active in the absence of primer, and both are unstable at high temperatures, the activity being abolished by a 20-min incubation at 45° C. Both isoforms are recognised by antibodies raised to the granule-bound starch synthase of pea. Isoform II, which has the same molecular weight (77 kDa) as the granulebound enzyme, is recognised more strongly than Isoform I.     

氮素水平对冬小麦籽粒灌浆过程中淀粉合成关键酶活性的影响

小麦籽粒灌浆过程中,淀粉合成关键酶腺苷二磷酸葡萄糖焦磷酸化酶(ADPG-PPase)、可溶性淀粉合成酶(SSS)、淀粉分支酶(SBE)和束缚态淀粉合成酶(GBSS)均随着灌浆进程呈单峰曲线变化,峰值出现在花后25d;不同氮肥施用量对灌浆前期酶活性的影响较小,而在花后20d之后影响较大;随着氮肥施用量的增加,4种酶活性均呈增加趋势,但氮肥过量时酶活性下降,表明适当增加施氮量有利于淀粉合成关键酶活性的提高。     

大小粒型藜麦籽粒表型、灌浆特性及淀粉合成酶活性的差异分析

【目的】籽粒大小是影响藜麦产量、商品性和加工特性的重要因素,考察灌浆期大小粒型藜麦籽粒表型、灌浆特性和淀粉合成酶活性的差异,为大粒型藜麦品种的选育提供理论指导。【方法】选择千粒重大于5.0 g和小于3.0 g的藜麦材料各两份,在青海省农林科学院种质资源创新试验基地进行田间试验,比较自灌浆期始7 d、14 d、21 d和28 d籽粒表型、灌浆特性和淀粉合成酶活性等在大小粒型藜麦间的差异。【结果】（1）大小粒型藜麦籽粒面积、周长、直径、粒长、粒宽表型性状随着生育时期均极显著增大,且粒型间存在显著差异,并以籽粒面积和周长差异最大,大粒型藜麦显著高于小粒型藜麦9.12%~11.54%和21.49~23.92%。（2）灌浆期间大粒型藜麦百粒干重始终显著高于同期小粒型藜麦,平均增幅在21.23%～31.04%;大小粒型藜麦灌浆速率随生育期均先上升后下降,均符合“慢-快-慢”的变化规律,但达到峰值时间和峰高明显不同,大粒型峰值出现早而高,小粒型则低而迟。（3）淀粉分支酶（SBE）、蔗糖合成酶（SS）、可溶性淀粉合成酶（SSS）和ADPG焦磷酸化酶（AGP）在大小粒型藜麦籽粒灌浆期呈现不同的变化趋势,SBE和SS活性表现为小粒型藜麦强于大粒型藜麦,而SSS和AGP活性则表现为大粒型藜麦强于小粒型藜麦。【结论】藜麦籽粒灌浆期间4种淀粉合成酶活性的差异,致使淀粉合成积累量和灌浆速率峰值的不同,进而形成籽粒表型性状的差异,而SSS和AGPase是影响藜麦籽粒大小形成的关键酶。     

小麦籽粒发育及淀粉晶体特性对花后高温胁迫的响应

选用2个品质类型和成熟期不同的新疆主栽小麦品种‘新春11号’和‘新春39号’,分别进行花后灌浆早期高温(花后5~8d,32℃,T_1)和中期高温(花后15~18d,38℃,T_2)处理,分析花后高温对小麦籽粒发育及淀粉晶体的影响。结果显示:(1)T_1处理明显降低了两品种籽粒长度和粒重,而T_2处理显著影响籽粒宽度和厚度;高温处理虽然降低了籽粒灌浆速率,但两品种灌浆最大峰值出现时间均在花后18d。(2)T_1处理对小麦籽粒A型淀粉粒形态的影响较大,中熟品种‘新春11号’的A型淀粉粒表面在花后10d时可观察到微孔,在花后15~20d时其粒径明显小于同期对照,在花后20~25d时淀粉粒表面压痕增多且A、B型淀粉粒表面出现明显缢缩;而早熟品种‘新春39号’淀粉粒形态和粒径大小受花后高温的影响相对较小。(3)两品种在不同高温处理下,其淀粉粒晶体特性衍射峰出现的位置相同,但淀粉粒的尖峰强度不同,表明高温胁迫不影响淀粉粒的晶体类型,但可能改变了淀粉粒内部的层状结构。研究表明,花后早期高温不仅对小麦籽粒外部形态有较大的影响,同时也影响到籽粒内部淀粉粒的形态和晶体的特性。     

Regulation of Starch and Protein Synthesis in Wheat Grains by Feeding Sucrose and Glutamine to Detached Ears Cultured in vitro

Three experiments of in vitro ear culture were conducted to evaluate how the substrates of C (carbon) and N (nitrogen) supply in liquid medium regulate the grain growth and synthesis of protein and starch in two winter wheat cultivars. Increasing glutamine supply with constant sucrose concentration increased the contents of total protein and protein components of albumin and globulin in grain, and the activity of glutamate pyruvate transaminase (GPT) across most treatments, while markedly reducing the contents of total starch and components of amylose and amylopectin as well as the activities of soluble starch synthase (SSS) and granule bounded starch synthase (GBSS). The opposite patterns were observed in the experiment of increasing sucrose supply at constant glutamine concentration. When simultaneously increasing sucrose and glutamine supply at constant ratio, the contents of total protein, albumin and globulin in grain were slowly enhanced, whereas the contents of total starch, amylose and amylopectin and the activities of SSS, GBSS and GPT increased only to a certain extent and then decreased. Negative correlations were found between the contents of protein or protein components in grains and the relative ratio of sucrose to glutamine concentrations in the culture medium, while positive correlations were seen between the contents of total starch or starch components and the ratio of sucrose to glutamine. These results implied that the composition of protein and starch in wheat grain could be readily manipulated by varying the concentrations of sucrose and glutamine and their ratio in the culture medium.     

百合鳞茎发育过程中淀粉合成相关酶基因的克隆及表达分析

该研究通过同源克隆技术克隆腺苷二磷酸葡萄糖焦磷酸化酶(AGPase)、颗粒结合淀粉合酶(GBSS)和可溶性淀粉合酶(SSS) 3类百合淀粉合成关键酶基因,分析这三类淀粉合成关键酶基因的表达变化,测定百合鳞茎膨大发育中淀粉含量变化。结果表明:(1) AGPase具有GlgC家族蛋白PLN02241蛋白结构特征及cl11394家族蛋白ADP_Glucose_PP与NTP_transferase结构域,获登录号KP751443; GBSS与SSS具有cl10013家族蛋白Glyco_transf_5,GT1_Glycogen_synthase_DULL1_like结构域,获登录号分别为KP751444、KP751445。(2)百合鳞茎形成与膨大发育过程中,淀粉含量呈现递增趋势,鳞茎盘开始分化茎杆时其淀粉含量最高,达到44.52%。鳞茎与叶片部位的三个淀粉合成相关酶基因表达量均逐渐增加;在鳞茎膨大后茎杆分化阶段,三个淀粉合成相关酶基因表达量达到最高,AGPase、GBSS、SSS在鳞片中的表达量分别为10.79,6.92和5.12,叶片中的表达量分别为6.79,5.22和4.41,鳞片中的表达量大幅度高于叶片;淀粉合成相关酶基因的表达量变化与淀粉含量、鳞茎的膨大发育成正相关。这为鳞茎的繁殖生产提供了可通过调节淀粉合成关键酶基因表达促进百合鳞茎膨大发育的思路。     

Effects of the activities of key enzymes involved in starch biosynthesis on the fine structure of amylopectin in developing rice (Oryza sativa L.) endosperms

The dynamic changes of the activities of enzymes involving in starch biosynthesis, including ADP-glucose pyrophosphorylase (AGPase), soluble starch synthases (SSS), starch branching enzyme (SBE) and starch debranching enzymes (DBE) were studied, and changes of fine structure of amy- lopectin were characterized by isoamylase treatment during rice grain development, using trans anti-waxy gene rice plants. The relationships between the activities of those key enzymes were also analyzed. The amylose synthesis was significantly inhibited in transgenic Wanjing 9522, but the total starch content and final grain weight were less affected as compared with those of non-transgenic Wanjing 9522 rice cultivar. Analyses on the changes of activities of enzymes involving in starch bio- synthesis showed that different enzyme activities were expressed differently during rice endosperm development. Soluble starch synthase is relatively highly expressed in earlier stage of endosperm de- velopment, whilst maximal expression of granule-bound starch synthase (GBSS) occurred in mid-stage of endosperm development. No obvious differences in changes of the activities of AGPase and SBE between two rice cultivars investigated, except the DBEs. Distribution patterns of branches of amy- lopectin changed continually during the development of rice grains and varied between two rice culti- vars. It was suggested that amylopectin synthesis be prior to the synthesis of amylose and different enzymes have different roles in controlling syntheses of branches of amylopectin.     

Partial substitution of organic nitrogen with synthetic nitrogen enhances rice yield,grain starch metabolism and related genes expression under the dual cropping system

Improving grain filling in the presernt farming systems is crucial where grain filling is a concern due to the extreme use of chemical fertilizers (CF). A field experiment was conducted at the experimental station of Guangxi University, China in 2019 to test the hypothesis that cattle manure (CM) and poultry manure (PM) combined with CF could improve rice grain filling rate, yield, biochemical and qualitative attributes. A total of six treatments, i.e., no fertilizer (T₁), 100% CF (T₂), 60% CM + 40% CF (T₃), 30% CM + 70% CF (T₄), 60% PM + 40% CF (T₅), and 30% PM + 70% CF (T₆) were used in this study. Results showed that the combined treatment T₆increased starch metabolizing enzymes activity (SMEs), such as ADP-glucose phosphorylase (ADGPase) by 8 and 12%, soluble starch synthase (SSS) by 7 and 10%, granule bound starch synthesis (GBSS) by 7 and 9%, and starch branching enzyme (SBE) by 14 and 21% in the early and late seasons, respectively, compared with T₂. Similarly, higher rice grain yield, grain filling rate, starch, and amylose content were also recorded in combined treatments. In terms of seasons, higher activity of SMEs , grain starch, and amylose content was noted in the late-season compared to the early season. The increment in these traits was mainly attributed to a lower temperature in the late season during the grain filling period. Furthermore, our results suggested that an increment in starch accumulation and grain filling rate were mainly associated with the enhanced sink capacity by regulating key enzyme activities involved in Suc-to-starch conversion. In-addition, RT-qPCR analysis showed higher expression levels of AGPS2b, SSS1, GBSS1, and GBSE11b genes, which resultantly increased the activities of SMEs during the grain filling period under combined treatments. Linear regression analysis revealed that the activity of ADGPase, SSS, GBSS, and SBE were highly positively correlated with starch and amylose accumulation. Thus, we concluded that a combination of 30% N from PM or CM with 70% N from CF is a promising option in terms of improving rice grain yield and quality. Our study provides a sustainable fertilizer management strategy to enhance rice grain yield and quality at the lowest environmental cost.     

花后土壤水分状况对小麦籽粒淀粉和蛋白质积累关键调控酶活性的影响

在温室盆栽条件下,以2个不同蛋白质含量的冬小麦(Triticum aestivum L．)品种皖麦38和扬麦9为材料,研究了花后第4天开始的土壤干旱(SRWC=45％～50％)和渍水对籽粒蛋白质和淀粉积累关键调控酶活性的影响。小麦叶片和籽粒的测定结果均表明,小麦源库器官中籽粒蛋白质和淀粉积累的关键调控酶活性变化趋势在2个品种间基本一致。与对照(SRWC=75％～80％)相比,干旱和渍水均明显降低了花后旗叶中蔗糖含量和磷酸蔗糖合成酶(SPS)活性,而氨基酸含量和谷氨酰胺合成酶(GS)活性略有下降。干旱和渍水均降低了籽粒库蔗糖合成酶(SS)和结合态淀粉合成酶(GBSS)活性,可溶性淀粉合成酶(SSS)活性降低尤甚。其中干旱处理下SS的下降比渍水更为明显。与对照相比,渍水明显降低了籽粒谷丙转氨酶(GPT)和GS活性,而干旱的影响较小。相关性分析结果表明籽粒淀粉产量和含量与SPS,SSS和GBSS活性的关系比与SS活性的关系更为密切,籽粒蛋白质产量和含量与叶中GS和籽粒中GPT活性的关系比与籽粒中GS关系活性更为密切。这些结果表明小麦源库器官中调控籽粒蛋白质和淀粉积累的关键酶活性变化是花后不同水分状况影响籽粒淀粉和蛋白质特性的重要因素。     

Elevated CO2 concentration and temperature effects on the partitioning of chemical components along juvenile Scots pine stems (Pinus sylvestris L.)

The effects of doubled ambient [CO₂] and different temperature levels on young Pinus sylvestris growing in phytotron chambers were studied. Five chambers were supplied with ~380 (‘ambient air’) and five with ~700 μmol mol⁻¹ CO₂ (‘elevated [CO₂]’). Temperature levels in the chambers ranged in increment steps of 2°C from −4°C to +4°C relative to the long-term monthly (day and night) average air temperature levels in Berlin–Dahlem. Substrate was medium fertile; soil moisture and air humidity were kept constant. After three vegetation periods twigs and stems were harvested, weighed, homogenized, and analyzed chemically. There was no significant temperature effect on wood mass accumulation, clearest positive [CO₂] effect occurred in the youngest twigs. In total, wood mass increased by 28.5% at doubled ambient [CO₂]. N-contents (percentage) decreased at elevated [CO₂] in the uppermost stem sections and not in twig wood causing wider C/N ratios in total. In response to elevated temperature, N-contents decreased slightly in twigs (~0.3%). Traces of free glucose, fructose and sucrose, which decreased from the top to the bottom, were found in stem wood, in contrast to traces of starch that increased from the top to the bottom. In response to elevated [CO₂] only a little more (0.05%) was accumulated in the top shoot and in tendency; glucose, fructose, and sucrose contents were lower at the bottom of stems as compared to the control. There was no obvious response of these non-structural carbohydrates to elevated temperature except for starch that decreased to half of the content from the lowest to the highest temperature level. Among the hemicellulose compounds, rhamnose and arabinose declined from the top shoot to the bottom of stem, whereas 4-O-methyl-d-glucuronic-acid, mannose, and xylose increased. Contents (percentage) of galactose remained approximately stable along the stem. The clearest positive effect of elevated [CO₂] along the whole stem was found for mannose with differences of 0.6–0.3%. In contrast to rhamnose and arabinose that showed a negative response to elevated [CO₂], mannose was reduced towards the uppermost stem sections. The 4-O-methyl-d-glucuronic-acid was slightly lowered at the bottom, and galactose and xylose showed no [CO₂] response. The only hemicellulose compound which reacted to temperature elevation was galactose. It increased slightly (~0.1% per 1°C). Cellulose and lignin (Klason) behaved oppositely: cellulose increased and lignin decreased from the top to the bottom. These structural components behaved reversely also in response to elevated [CO₂]. In stem parts above the bottom section, cellulose content was slightly higher at elevated [CO₂], and lignin content was slightly lower at the bottom. Lignin reacted to temperature elevation by a very slight increase on the average (~0.1% per one 1°C). Cellulose, however, decreased by ~0.2% per 1°C temperature elevation. The importance of persistent sinks of carbon in woody plant parts is discussed in respect to the greenhouse effect.     

Photosynthetic acclimation and photosynthate partitioning in soybean leaves in response to carbon dioxide enrichment

Photosynthetic rates and photosynthate partitioning were studied in three-week-old soybean [Glycine max (L.) Merr. cv. Williams] plants exposed to either ambient (35 Pa) or elevated (70 Pa) CO₂ in controlled environment chambers. Ambient CO₂-grown plants also were given a single 24 h treatment with 70 Pa CO₂ 1 d prior to sampling. Photosynthetic rates of ambient CO₂-grown plants initially increased 36% when the measurement CO₂ was doubled from 35 to 70 Pa. Photosynthetic rates of the third trifoliolate leaf, both after 1 and 21 d of elevated CO₂ treatment, were 30 to 45% below those of ambient CO₂-grown plants when measured at 35 Pa CO₂. These reduced photosynthetic rates were not due to increased stomatal resistance and were observed for 2 to 8 h after plants given 1 d of CO₂ enrichment were returned to ambient CO₂. Initial and total ribulose 1,5-bisphosphate carboxylase/oxygenase (Rubisco) activities, percent activation, Rubisco protein, soluble protein and leaf chlorophyll content were similar in all CO₂ treatments. Quantum yields of photosynthesis, determined at limiting irradiances and at 35 Pa CO₂, were 0.049±0.003 and 0.038±0.005 mol CO₂ fixed per mol quanta for ambient and elevated CO₂-grown plants, respectively (p<0.05). Leaf starch and sucrose levels were greater in plants grown at 70 than at 35 Pa CO₂. Starch accumulation rates during the day were greater in ambient CO₂-grown plants than in plants exposed to elevated CO₂ for either 1 or 21 d. However, the percentage of C partitioned to starch relative to total C fixed was unaffected by 1 d of CO₂ enrichment. The above results showed that both photosynthetic and starch accumulation rates of soybean leaflets measured at 35 Pa CO₂ were temporarily reduced after 1 and 21 d of CO₂ enrichment. The biochemical mechanism affecting these responses was not identified.Abbreviations SLW- specific leaf weight (g m^–2) - Rubisco- ribulose 1,5-bisphosphate carboxylase/oxygenase - Rul- 5bisP, ribulose 1,5 bisphosphate - DAP- days after planting - SAR- starch accumulation rate - C_i- intercellular CO₂ concentration