Different solvothermal reactions of ZnC₂O₄ with oxalic acid (H₂ox) and 1, 2, 4-triazole (Htrz) successfully gave a new quaternary (NJTU-Bai83, NJTU-Bai=Nanjing Tech University Bai's group) and a new quinary (NJTU- Bai84) anionic metal-organic frameworks (MOFs), where NJTU-Bai83=(Me₂NH₂)₂[Zn₃(trz)₂(ox)₃]·2H₂O and NJTU-Bai84=(Me₂NH₂)[Zn₃(trz)₃(ox)₂]·H₂O, respectively. With the [Zn₂(ox)₄(trz)₂] secondary building unit (SBU) in NJTU- Bai83 replaced by the [Zn₃(ox)₂(trz)₆] and planar [Zn(ox)₂(trz)₂] ones in NJTU-Bai84, 2D supramolecular building layers (SBLs) are changed from the A-layer and B-layer to another A-layer, while pillars are transformed from the tetrahedral [Zn(ox)₂(trz)₂] SBU to the irregular tetrahedral [Zn(ox)₂(trz)₂] and planar [Zn(ox)₂(trz)₂] SBUs. Thus, cdq-topological quaternary NJTU-Bai83 is tuned to (4, 4, 8)-c new topological quinary NJTU-Bai84. Two MOFs were well characterized by powder X-ray diffraction, thermogravimetric analysis, elemental analysis, etc.