# | Title | Journal | Year | Citations |
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1 | Reactive oxygen species and antioxidant machinery in abiotic stress tolerance in crop plants | Plant Physiology and Biochemistry | 2010 | 8,238 |
2 | Plant growth-promoting bacteria confer resistance in tomato plants to salt stress | Plant Physiology and Biochemistry | 2004 | 1,038 |
3 | Plant phenolics: Recent advances on their biosynthesis, genetics, and ecophysiology | Plant Physiology and Biochemistry | 2013 | 875 |
4 | Effects of brassinosteroids on the plant responses to environmental stresses | Plant Physiology and Biochemistry | 2009 | 754 |
5 | Plant pathogenesis-related (PR) proteins: A focus on PR peptides | Plant Physiology and Biochemistry | 2008 | 676 |
6 | Structure and function of enzymes involved in the biosynthesis of phenylpropanoids | Plant Physiology and Biochemistry | 2008 | 645 |
7 | The flavonoid biosynthetic pathway in Arabidopsis: Structural and genetic diversity | Plant Physiology and Biochemistry | 2013 | 637 |
8 | An overview on manufactured nanoparticles in plants: Uptake, translocation, accumulation and phytotoxicity | Plant Physiology and Biochemistry | 2017 | 579 |
9 | The effect of developmental and environmental factors on secondary metabolites in medicinal plants | Plant Physiology and Biochemistry | 2020 | 559 |
10 | How reactive oxygen species and proline face stress together | Plant Physiology and Biochemistry | 2014 | 462 |
11 | Functional roles of flavonoids in photoprotection: New evidence, lessons from the past | Plant Physiology and Biochemistry | 2013 | 452 |
12 | Amelioration of high salinity stress damage by plant growth-promoting bacterial endophytes that contain ACC deaminase | Plant Physiology and Biochemistry | 2014 | 442 |
13 | Analysis of antioxidant enzyme activity during germination of alfalfa under salt and drought stresses | Plant Physiology and Biochemistry | 2009 | 440 |
14 | Salinity induced physiological and biochemical changes in plants: An omic approach towards salt stress tolerance | Plant Physiology and Biochemistry | 2020 | 438 |
15 | Role of sugars under abiotic stress | Plant Physiology and Biochemistry | 2016 | 432 |
16 | An integrated overview of seed development in Arabidopsis thaliana ecotype WS | Plant Physiology and Biochemistry | 2002 | 418 |
17 | Phytochelatin synthesis and response of antioxidants during cadmium stress in Bacopa monnieri L◊ | Plant Physiology and Biochemistry | 2006 | 418 |
18 | Structure and function of Rubisco | Plant Physiology and Biochemistry | 2008 | 418 |
19 | Alleviation of salt-induced photosynthesis and growth inhibition by salicylic acid involves glycinebetaine and ethylene in mungbean (Vigna radiata L.) | Plant Physiology and Biochemistry | 2014 | 415 |
20 | Silicon nanoparticles more effectively alleviated UV-B stress than silicon in wheat (Triticum aestivum) seedlings | Plant Physiology and Biochemistry | 2017 | 411 |
21 | Starch biosynthesis in cereal endosperm | Plant Physiology and Biochemistry | 2010 | 410 |
22 | Silicon nanoparticles (SiNp) alleviate chromium (VI) phytotoxicity in Pisum sativum (L.) seedlings | Plant Physiology and Biochemistry | 2015 | 407 |
23 | Amelioration of flooding stress by ACC deaminase-containingplant growth-promoting bacteria | Plant Physiology and Biochemistry | 2001 | 406 |
24 | Expansive growth of plant cell walls | Plant Physiology and Biochemistry | 2000 | 405 |
25 | Glutathione and glutathione reductase: A boon in disguise for plant abiotic stress defense operations | Plant Physiology and Biochemistry | 2013 | 404 |
26 | Evidence for the function of the free radical gas — nitric oxide (NO•) — as an endogenous maturation and senescence regulating factor in higher plants | Plant Physiology and Biochemistry | 1998 | 394 |
27 | Selenium protects sorghum leaves from oxidative damage under high temperature stress by enhancing antioxidant defense system | Plant Physiology and Biochemistry | 2010 | 387 |
28 | Salinity effects on polyphenol content and antioxidant activities in leaves of the halophyte Cakile maritima | Plant Physiology and Biochemistry | 2007 | 379 |
29 | Plant proteases, protein degradation, and oxidative stress: role of peroxisomes | Plant Physiology and Biochemistry | 2002 | 371 |
30 | Nitric oxide stimulates seed germination and counteracts the inhibitory effect of heavy metals and salinity on root growth of Lupinus luteus | Plant Physiology and Biochemistry | 2003 | 370 |
31 | Chlorophyll a fluorescence study revealing effects of high salt stress on Photosystem II in wheat leaves | Plant Physiology and Biochemistry | 2010 | 367 |
32 | Identification of nutrient deficiency in maize and tomato plants by in vivo chlorophyll a fluorescence measurements | Plant Physiology and Biochemistry | 2014 | 358 |
33 | Impacts of size and shape of silver nanoparticles on Arabidopsis plant growth and gene expression | Plant Physiology and Biochemistry | 2014 | 352 |
34 | Oxylipins: Structurally diverse metabolites from fatty acid oxidation | Plant Physiology and Biochemistry | 2009 | 351 |
35 | Pseudomonas putida attunes morphophysiological, biochemical and molecular responses in Cicer arietinum L. during drought stress and recovery | Plant Physiology and Biochemistry | 2016 | 346 |
36 | Reactive oxygen species, essential molecules, during plant–pathogen interactions | Plant Physiology and Biochemistry | 2016 | 346 |
37 | The antioxidant systems vis-à-vis reactive oxygen species during plant–pathogen interaction | Plant Physiology and Biochemistry | 2003 | 345 |
38 | Approaches in modulating proline metabolism in plants for salt and drought stress tolerance: Phytohormones, mineral nutrients and transgenics | Plant Physiology and Biochemistry | 2017 | 337 |
39 | Plant growth-promoting bacteria Bacillus amyloliquefaciens NBRISN13 modulates gene expression profile of leaf and rhizosphere community in rice during salt stress | Plant Physiology and Biochemistry | 2013 | 332 |
40 | Role of nanomaterials in plants under challenging environments | Plant Physiology and Biochemistry | 2017 | 328 |
41 | Effect of water and temperature stress on the content of active constituents of Hypericum brasiliense Choisy | Plant Physiology and Biochemistry | 2005 | 325 |
42 | Response to copper excess in Arabidopsis thaliana: Impact on the root system architecture, hormone distribution, lignin accumulation and mineral profile | Plant Physiology and Biochemistry | 2010 | 321 |
43 | Gibberellin secreting rhizobacterium, Pseudomonas putida H-2-3 modulates the hormonal and stress physiology of soybean to improve the plant growth under saline and drought conditions | Plant Physiology and Biochemistry | 2014 | 313 |
44 | Exposure of engineered nanomaterials to plants: Insights into the physiological and biochemical responses-A review | Plant Physiology and Biochemistry | 2017 | 312 |
45 | Excess copper induced oxidative stress and response of antioxidants in rice | Plant Physiology and Biochemistry | 2012 | 308 |
46 | Lignins and lignification: Selected issues | Plant Physiology and Biochemistry | 2000 | 306 |
47 | Differential responses of antioxidative system to chilling and drought in four rice cultivars differing in sensitivity | Plant Physiology and Biochemistry | 2006 | 305 |
48 | Expression of flavonoid biosynthesis genes and accumulation of flavonoid in wheat leaves in response to drought stress | Plant Physiology and Biochemistry | 2014 | 304 |
49 | Why boron? | Plant Physiology and Biochemistry | 2004 | 293 |
50 | Zinc oxide nanoparticles (ZnONPs) alleviate heavy metal-induced toxicity in Leucaena leucocephala seedlings: A physiochemical analysis | Plant Physiology and Biochemistry | 2017 | 292 |