Biochemistry & Pharmacology: Open Access

Biochemistry & Pharmacology: Open Access
Open Access

ISSN: 2167-0501

+44-77-2385-9429

Biochemistry & Pharmacology: Open Access : Citations & Metrics Report

Articles published in Biochemistry & Pharmacology: Open Access have been cited by esteemed scholars and scientists all around the world. Biochemistry & Pharmacology: Open Access has got h-index 15, which means every article in Biochemistry & Pharmacology: Open Access has got 15 average citations.

Following are the list of articles that have cited the articles published in Biochemistry & Pharmacology: Open Access.

  2024 2023 2022 2021 2020 2019 2018 2017

Total published articles

34 37 0 26 16 9 28 16

Conference proceedings

0 0 8 0 0 0 59 50

Citations received as per Google Scholar, other indexing platforms and portals

246 366 431 398 377 283 225 199
Journal total citations count 3011
Journal impact factor 0.67*
Journal 5 years impact factor 29.63
Journal cite score 22.05
Journal h-index 15
Journal h-index since 2019 13
Important citations (271)

De agostini a, cortis p, cogoni a, gargiulo r, fenu g. epipactis tremolsii seed diversity in two close but extremely different populations: just a case of intraspecific variability?. plants. 2020 nov;9(11):1625.

Mishra b, chandra m, pant d. genome-mining for stress-responsive genes, profiling of antioxidants and radical scavenging metabolism in hyperaccumulator medicinal and aromatic plants. industrial crops and products. 2021 dec 1;173:114107.

Joshi a, kanthaliya b, meena s, rajput vd, minkina t, arora j. proteomic and genomic approaches to study plant physiological responses under heavy metal stress. heavy metal toxicity in plants: physiological and molecular adaptations. 2021 nov 25:231.

Elazab ds, abdel-wahab da, el-mahdy mt. iron and zinc supplies mitigate cadmium toxicity in micropropagated banana (musa spp.). plant cell, tissue and organ culture (pctoc). 2021 may;145(2):367-77.

Ezzat sm, elkorashey rm. wastewater as a non-conventional resource: impact of trace metals and bacteria on soil, plants, and human health. human and ecological risk assessment: an international journal. 2020 sep 13;26(8):2245-65.

Ezzat sm, elkorashey rm. wastewater as a non-conventional resource: impact of trace metals and bacteria on soil, plants, and human health. human and ecological risk assessment: an international journal. 2020 sep 13;26(8):2245-65.

Al mahmud j, bhuyan mb, nahar k, parvin k, hasanuzzaman m. response and tolerance of fabaceae plants to metal/metalloid toxicity. inthe plant family fabaceae 2020 (pp. 435-482). springer, singapore.

Khan bm, afrin ah, hossain mm. effects of phosphorus on germination and seedling growth of cucumis sativus l. in arsenic solution culture. international journal of rural development, environment and health research. 2018;2(1):48-55.

Dos santos silva jv, de almeida aa, ahnert d, da silva nm, dos santos ml, de almeida santos n, baligar vc. foliar applied cuprous oxide fungicide induces physiological, biochemical and molecular changes in cacao leaves. scientia horticulturae. 2020 apr 30;265:109224.

B?y?kl? m, dorak s, a??k bb. effects of food industry wastewater treatment sludge on corn plant development and soil properties. polish journal of environmental studies. 2020 jul 1;29(4).

Singh pk. effect of soil polluted by heavy metals: effect on plants, bioremediation and adoptive evolution in plants. inplant responses to soil pollution 2020 (pp. 89-102). springer, singapore.

Zhao m, zeng s, liu s, li z, jing l. metal accumulation by plants growing in china: capacity, synergy, and moderator effects. ecological engineering. 2020 apr 1;148:105790.

Nwineewii jd. heavy metal concentrations in cassava leaves and tubers harvested from some communities in gokana, rivers state, nigeria. int. j. res. sci. innov. 2020;7:167-72.

Borowiak k, budka a, lisiak-zieli?ska m, han? a, zbierska j, bara?kiewicz d, kayzer d, gaj r, szymczak-graczyk a, kanclerz j. accumulation of airborne toxic elements and photosynthetic performance of lolium multiflorum l. leaves. processes. 2020 sep;8(9):1013.

Garg n, singh s, kashyap l. arbuscular mycorrhizal fungi and heavy metal tolerance in plants: an insight into physiological and molecular mechanisms. inmycorrhiza-nutrient uptake, biocontrol, ecorestoration 2017 (pp. 75-97). springer, cham.

Varshney a, mohan s, dahiya p. growth and antioxidant responses in plants induced by heavy metals present in fly ash. energy, ecology and environment. 2021 apr;6(2):92-110.

Lokhandwala a, parihar p, bora m. mycorrhizal contacts can get better adaptability for host plant under metal stress. journal of pharmacognosy and phytochemistry. 2017;6(6):1989-94.

Singh p, singh i, shah k. alterations in antioxidative machinery and growth parameters upon application of nitric oxide donor that reduces detrimental effects of cadmium in rice seedlings with increasing days of growth. south african journal of botany. 2020 jul 1;131:283-94.

Al-kuraishy hm, hussian nr, al-naimi ms, al-gareeb ai. statins role in vitiligo: a mini-review. turkish journal of dermatology. 2020 jan 1;14(1):1.

Chen l, wang d, long c, cui z. effect of plant growth regulations on phytoremediation of uranium and cadmium contaminated soil by zebrina pendula schnizl. fresenius environ bull. 2019 jan 1;28(2a):1434-42.

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